The Bioprocessing Summit 2014 Agenda

August 18-22, 2014
Renaissance Waterfront Hotel, Boston, MA
THEBIOPROCESSINGSUMMIT
Practical Solutions for Today’s Laboratory Challenges
Sixth Annual
Register by June 6 and Save up to $400! BioprocessingSummit.com
Premier Sponsor
Cambridge Healthtech Institute,
250 First Avenue, Suite 300,
Needham, MA 02494
www.healthtech.com
Optimizing Cell Culture TechnologyOptimizing Cell Culture Technology
Bioproduction: Scale, Bioreactors & DisposablesBioproduction: Scale, Bioreactors & Disposables
Optimizing Cell Line DevelopmentOptimizing Cell Line Development
Overcoming Formulation ChallengesOvercoming Formulation Challenges
High-Concentration Protein FormulationsHigh-Concentration Protein Formulations
Advances in Purification TechnologiesAdvances in Purification Technologies
STREAM 3
Analytical Development & Quality
Rapid Methods to Assess Quality & Stability of BiologicsRapid Methods to Assess Quality & Stability of Biologics
Early Analytical Development for BiotherapeuticsEarly Analytical Development for Biotherapeutics
Higher-Order Protein StructureHigher-Order Protein Structure
STREAM 4
Development of Next-Generation Biologics
CMC Strategies for Antibody-Drug ConjugatesCMC Strategies for Antibody-Drug Conjugates
Process Development for Novel Biotherapeutic FormatsProcess Development for Novel Biotherapeutic Formats
Cell Therapy BioproductionCell Therapy Bioproduction
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CONFERENCE-AT-A-GLANCECONFERENCE-AT-A-GLANCE
SHORT COURSESSHORT COURSES
HOTEL & TRAVELHOTEL & TRAVEL
SPONSOR & EXHIBITOR INFORMATIONSPONSOR & EXHIBITOR INFORMATION
REGISTRATION INFORMATIONREGISTRATION INFORMATION
REGISTER ONLINE NOW!
BioprocessingSummit.com
TRAINING SEMINARSTRAINING SEMINARS
STREAM 1
Cell Culture & Cell Line Development
STREAM 2
Formulation & Downstream Processing

Corporate Sponsors:
Premier Sponsor:
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About the Summit
The Bioprocessing Summit
Bringing together the international bioprocessing community
The Bioprocessing Summit brings together international leaders to discuss today's bioprocess issues from
cell line selection to bioproduction. The Summit provides practical details in a relaxed, congenial atmosphere
that promotes information exchange and networking.
The Bioprocessing Summit continues to grow, and now comprises 12 distinct meetings in one event,
including cell culture, purification, bioproduction, quality, formulation, and novel biotherapeutic formats. The
Summit also features small-group breakout discussions, networking in the busy exhibit hall, an extensive
poster display, and an array of in-depth short courses and training seminars.
This leading bioprocess meeting is hosted in Boston each summer along the lively and cosmopolitan harbor
waterfront. Hundreds of bioprocess professionals come together each year at the Summit to share practical
solutions for today’s laboratory challenges with researchers from around the world.
Event-at-a-Glance
SHORT COURSES*:
Monday, August 18 | 9:00-11:30 am
DINNER SHORT COURSES*:
Tuesday, August 19 | 6:00-8:30 pm
DINNER SHORT COURSES*:
Thursday, August 21 | 6:30-9:00 pm
CONFERENCE PROGRAMS:
Monday-Tuesday
August 18-19
Wednesday-Thursday
August 20-21
Thursday-Friday
August 21-22
STREAM 1
Cell Culture & Cell
Line Development
Optimizing Cell
Culture Technology
Bioproduction: Scale,
Bioreactors & Disposables
Optimizing Cell
Line Development
STREAM 2
Formulation & Downstream
Processing
Overcoming
Formulation Challenges
High-Concentration
Protein Formulations
Advances in
Purification Technologies
STREAM 3
Analytical Development
& Quality
Rapid Methods
to Assess Quality & Stability
of Biologics
Early Analytical Development
for Biotherapeutics
Higher-Order
Protein Structure
STREAM 4
Development of Next-
Generation Biologics
CMC Strategies for Antibody-
Drug Conjugates
Process Development for
Novel Biotherapeutic Formats
Cell Therapy
Bioproduction
Introduction to Bioprocessing
Global Regulatory
Expectations for Analytical
Elements of Biotechnology/
Biosimilar Products
Pharmaceutical Outsourcing
Introduction to
Cell Culture
Introduction to
Biologics Formulation
and Delivery
Cambridge Healthtech
*Separate registration required
*
Needham, MA 02494
www.healthtech.com
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Short Courses* *Separate Registration Required. Please visit the event website for more details.
MONDAY, AUGUST 18, 2014
9:00-11:30 am Pre-Conference Short Courses
SC 1 Optimizing Media – Achieving Super Soup
To grow mammalian cells, researchers need to provide an
optimal in vitro environment. The key feature of successful
cell growth is the culture medium. ‘Achieving Super Soup’
requires finesse and know-how in order to combine the right
ingredients at the right times under the right conditions to
achieve high titers. This workshop will provide a foundation for
optimizing cell culture media presented by real-world experts
who will also tailor a portion of the course to fit concerns and
challenges faced by the workshop participants.
Instructors: Alan G. Ryder, Ph.D., Senior Lecturer, Nanoscale
Biophotonics Laboratory, School of Chemistry, National
University of Ireland-Galway (NUIG)
Additional Instructors to be Announced
SC 2 QbD Strategies for Formulation
Development of ProteinTherapeutics
This course offers a forum, discussing how to perform
protein drug formulation development to meet Quality by
Design expectations from the health authorities. A number
of case studies will be presented to demonstrate how to
design multivariate experiments, how to obtain dataset
and how to analyze data in order to propose formulation of
drug substance or drug product. The course will combine
“how to” suggestions and real-world examples in an
interactive discussion.
Instructors: Steven LaBrenz, Ph.D., Scientific Director, Drug
Product Development, Janssen R&D
Kevin Zen, Ph.D., Manager, Biologics Development, Allergan
SC 3 Operational Excellence in Bioprocessing:
PAT, QbD, DoE and Continuous Improvement
Ensuring quality in bioprocesses that complies with regulatory
requirements and mitigates risk often results in very high
bottom-line costs. Adopting best practices early in the
development process and customizing these approaches
to operational excellence from other highly competitive
industries are currently taking place in biopharmaceutical
production. This course will provide both an overview of these
approaches and how they work, as well as case studies of
how these innovations have been applied successfully in
bioprocessing and the development of biopharmaceuticals.
Appropriate regulatory guidance will also be discussed.
Instructors to be Announced
SC 4 ADC “Developability”: Critical Quality
Attributes Inform Formulation and Process
Development
ADCs have unique critical quality attributes (CQAs) that are
affected by the nature of the component parts: the antibody,
the linker and the toxin. The CQAs are also strongly affected
by the formulation, the process parameters, and the storage
conditions. Effective formulation and process development
strategies are based upon a molecular understanding of
ADC CQAs: aggregates, charge variants, drug antibody ratio,
conjugation site, free drug. Development of these complex
molecules requires an array of analytical and biophysical
techniques that are used to identify attributes that could have
a clinical impact
Instructor: Janet Wolfe, Ph.D., President & CEO, Wolfe
Laboratories
TUESDAY, AUGUST 19, 2014
6:00-8:30 pm Dinner Short Courses
SC 5 Extractables & Leachables: Study Design
for Disposables and Qualification Consideration
Along with reviewing the history of E&L study designs, this
course will also clarify the differences between designing E&L
studies for disposable versus primary packaging, and how
to use supplier data. We will also look at container closure
integrity tests, and discuss E&L test methods development
and validation. Finally, we will assess strategies for simplifying
and reducing the numbers of E&L studies required, especially
with specification changes.
Instructor: Ken Wong, Deputy Director, MTech/AP&T -
Extractables & Leachables, Sanofi Pasteur
SC 6 Accelerated StabilityTesting of Biologics
This short course will aim to guide the researcher in designing
studies for accelerated stability testing of biologics. The
course will begin with basic underlying concepts governing
protein drug product stability, and focus on design principles
for meaning stress and accelerated stability testing of not
only the protein of interest, but also of excipients and primary
packaging components. Strategies to handle complexities
arising from their interactions will also be discussed.
Instructor: Yatin R. Gokarn, Ph.D., Narotam Sekhsaria
Distinguished Professor of Chemical Engineering, Institute of
Chemical Technology, Mumbai, India
SC 7 Analytical Strategies for Comparability in
Bioprocess Development
Bioprocess changes can impact quality attributes of biologics
and may affect efficacy and/or safety of the product. During
development and throughout the product lifecyle, when
process improvements are implemented, it is essential
to gather sufficient data to support the conclusion that
product safety or efficacy has not been adversely affected.
This demonstration exercise requires careful planning of
the comparability studies and is based on the background
knowledge of protein structure, biological function, and
clinical attribute profiles of the product accumulated
during development.
Instructor: Christine P. Chan, Ph.D., Principal Scientist/
Technical Lead, Manufacturing Science & Technology,
Genzyme, a SANOFI company
THURSDAY, AUGUST 21, 2014
6:30-9:00 pm Dinner Short Courses
SC 8 Biophysical Characterization in
Developing Biopharmaceuticals:The Path to
Developability, Stability and Comparability
This interactive dinner course will take a closer look at the
biophysical toolbox and approaches for monitoring the higher
order structure (HOS) of protein drugs.
Instructors:Steven Berkowitz, Ph.D., Consultant; former
Principal Scientist, Analytical Development, Biogen Idec
Yatin R. Gokarn, Ph.D., Narotam Sekhsaria Distinguished
Professor of Chemical Engineering, Institute of Chemical
Technology, Mumbai, India
SC 9 ABC: Anything But Chromatography –
Precipitation, Crystallization and Flocculation
Increased titer in biopharmaceutical production requires
new strategies for economical processing. Precipitation,
crystallization and flocculation are a unit operation which
overcomes productivity limits of chromatography. General
engineering principles, including how to set up a precipitation,
crystallization, or flocculation process for purification of
recombinant proteins will be shown. Scale-up rules will be
explained. Examples will be shown for products produced
in mammalian cell culture and E.coli. A strategy on how to
implement such processes will be discussed.
Instructor: Alois Jungbaer, Ph.D., Professor, Department
of Biotechnology, University of Natural Resources and Life
Science Vienna, (BOKU) and Austrian Centre of Industrial
Biotechnology
SC 10 Bioprocess Development: Considerations
for the Quality and Safety of Materials in
Contact with Biologics
This course will discuss in details materials Strategy for
bioprocessing, manufacturing and storage of biologics and
its impact on overall stability of biotherapeutics. Course
will aim to discuss regulatory expectations and analytical
strategy for assessing suitability of components, container
closure components/primary system. The course will also
discuss how the understanding of chemistry of materials
such as plastic, rubber, glass and metals and their impact
on bioprocess development and overall quality and stability
of biologics.
Instructor: Diane Paskiet, Ph.D., Director, Scientific Affairs,
West Pharmaceutical Services
Needham, MA 02494
www.healthtech.com
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AUGUST 18-19, 2014
DAY 1 1:00-5:15 PM | DAY 2 8:30 AM - 5:00 PM
TS 1: INTRODUCTIONTO BIOPROCESSING
Instructors:
Susan Dana Jones, Ph.D., Vice President and
Senior Consultant, BioProcessTechnology
Consultants, Inc.
Sheila G. Magil, Ph.D., Senior Consultant,
BioProcessTechnology Consultants, Inc.
CHI’s Introduction to Bioprocessing training seminar offers a
comprehensive survey of the steps needed to produce today’s
complex biopharmaceuticals from early development through
commercial. The seminar begins with a brief introduction to
biologic drugs and the aspects of protein science that drive
the intricate progression of analytical and process steps that
follows. We then step through the stages of bioprocessing,
beginning with the development of cell lines and ending at
the packaging of a finished drug product. The seminar also
will explore emerging process technologies, facility design
considerations and the regulatory and quality standards
that govern our industry throughout development. The
important roles played by the analytical and formulation in
developing and gaining approval for a biopharmaceutical are
also examined.
This 1.5-day class is directed to attendees working in any
aspect of industry, including scientific, technical, business,
marketing or support functions, who would benefit from
receiving a detailed overview of this field.
About the Instructors:
Susan Dana Jones is a seasoned biotechnology entrepreneur
with experience in product development, outsourcing and
strategic planning. Dr. Jones is a subject matter expert in
cell line development and characterization for biosimilar, new
biopharmaceutical, and vaccine development programs.
She has broad knowledge of regulatory requirements for
manufacturing products for human use and has prepared CMC
sections of multiple regulatory submissions. She currently
serves on the Board of Directors of Gene Solutions, the
Scientific Advisory Board of Symphogen, and is a member
of the Editorial Advisory Board of BioProcess International.
She received her Ph.D. in Genetics from the University of
California, San Francisco.
Sheila Magil has over 20 years of experience in quality and
analytical method development for biologics, peptides and
small molecules. Her expertise includes quality assurance,
protein and peptide biochemistry, and analytical development.
She was formerly Senior Manager of Analytical Development
and Quality Control at Biomeasure, Inc., and previously held
positions at WaratahPharma, Alkermes, Bion, and HHMI at
Massachusetts General Hospital. Dr. Magil has implemented
quality systems and has managed external analytical and
QC activities for multiple biopharmaceutical products. Dr.
Magil holds a Ph.D. in Biochemistry from the University of
Minnesota.
TS2: GLOBAL REGULATORY EXPECTATIONS
FOR ANALYTICAL ELEMENTS OF
BIOTECHNOLOGY/BIOSIMILAR PRODUCTS
Instructor:
Nadine M. Ritter, Ph.D., President and
Analytical Advisor, Global Biotech Experts,
LLC
This 1.5 day class will present the driving concepts that distinguish
the regulatory approach to the production and testing of
biologically-derived from chemical, small molecule pharmaceutical
products. It provides a comprehensive overview of how analytical
elements come together in global regulatory dossiers, which
can (should!) be used to drive the nature and timing of key
CMC studies. It also provides an overview of how regulatory
dossier CMC sections in marketing authorizations (BLA/MAA)
are linked to analytical expectations in regulatory pre-approval
inspections. All attendees will be given a searchable USB drive
containing over 200current and draft global regulatory and quality
guidance documents associated with the development and
commercialization of biotech and biosimilar products.Topics
include:
• Why are regulations different for biopharmaceutical products
vs. traditional chemical products?
• What are the multiple types of world-wide regulations
that detail CMC analytical study requirements for
biotechnology/biosimilar products?
• What are the 10 (or 11 if biosimilar) non-negotiable
CMC characterization, comparability, release
specification and stability data packages required for a
biotechnology-based product?
• How can these required CMC analytical and stability
studies be staged most efficiently during the product
development lifecycle?
• Why do biotech products require orthogonal methods
for physiochemical characteristics as well as functional
potency assays?
• What are some of the current CMC ‘hot buttons’ for
biotechnology analytical and stability studies that may
cause regulatory review problems due to deficiencies in
product dossiers?
About the Instructor:
Nadine Ritter obtained her master and doctoral degrees in cell and
molecular biology at Rice University (Houston,TX) on evolutionary
mechanisms for subcellular translocation of mitochondrial
proteins. She was engaged in basic academic research in the
field of extracellular matrix proteins and the process of bone
mineralization at the University ofTexas Health Science Center
in Houston for over 10 yrs. She entered the biopharm industry
as a protein chemist in analytical R&D at Abbott Laboratories
(Abbott Park, IL). She then became the Director of the Analytical
Services Division of BioReliance (Rockville, MD), a major contract
testing organization. Since 2002, she has been an international
consultant, trainer, speaker and writer for biotech and biosimilar
products. In 2003, she was one of six industry and two FDA
founders of the CaSSS CMC Strategy Forum, which has led to
the publication of major industry/regulatory white papers on CMC
topics, and is now being held annually in North America, Europe,
Asia and Latin America.
TS 3: OPTIMIZING PHARMACEUTICAL
OUTSOURCING
Selecting the Right Partner for Your Business and
Getting the Most Out of the Relationship
Instructor:
Trevor Deeks, Ph.D., Consultant, Deeks
Pharmaceutical Consulting Services LLC
This seminar covers the outsourcing of all
activities associated with biological manufacturing,
analysis and characterization. It deals with all aspects
from the initial steps to identify a suitable outsourcing
partner, through to setting up of long-term commercial
manufacturing partnerships. It is aimed at both large and
small pharmaceutical companies but is particularly relevant
to smaller companies that are heavily dependent on reliable,
experienced and technically competent third party contractors.
The learning styles include formal presentations, group
workshop exercises and interactive discussion sessions and it
will benefit both technical specialists and project managers.
The seminar will include the following outsourcing topics:
• Identification, assessment and selection of third party
contractprs based on competency and quality
• Selection based on the needs of the contract giver – finding
the right fit and aligning the cultures
• Quality audits and quality agreements – best practices
Dr Deeks has 35 years of experience in pharmaceutical
manufacturing, process and formulation development, QC and
QA experience. He has developed broad technical expertise
and has been involved in the commercialization of a number of
currently marketed products.
He has held management roles with major pharmaceutical
manufacturing and development companies and has also
managed pharmaceutical consulting groups providing auditing,
validation, GMP consulting, QA and contract Qualified Person
(QP) services.
He is a QP registered in the UK under the provisions of the EC
Directive. He has audited and assessed more than 50 contract
service providers, globally and has worked with CMOs and
CTLs for 25+ years.
He recently led a contract manufacturing group for a medium-
sized pharmaceutical company for 4 years, identifying,
assessing and negotiating with contract manufacturing
organizations (CMOs) and contract testing laboratories
(CTLs). During this time he developed systems and tools for
identification, selection and management of CMOs, CTLs and
contract packaging organizations (CPOs).
He has taught several training courses and workshops for
PDA, ISPE, PTI and in-house for pharmaceutical companies
as well as being an active presenter at PDA, ISPE, AAPS,
Pharmaceutical Society and independent conferences.
He has published over 30 papers in peer-reviewed journals and
several books and book chapters. Most recently he was lead
editor and an author for a new book entitled Pharmaceutical
Outsourcing: Quality Management and Project Delivery, now
available through PDA Publications.Cambridge Healthtech Institute,
Needham, MA 02494
www.healthtech.com
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AUGUST 20-21, 2014
DAY 1 9:00 AM - 5:15 PM
DAY 2 8:30 AM - 12:00 PM
TS 4: INTRODUCTIONTO
CELL CULTURE
Instructor:
Timothy W. Fawcett, Ph.D., Director, the
BioTechnical Institute of Maryland, Inc., and
Founder, BioSciConcepts
This 1.5-day Intro to Cell Culture Training Seminar is a lecture
based course intended for the beginner who is thinking about
culturing animal cells for the first time or for intermediate
cell culturists wanting to know more about how animal cell
culture works and how to improve their process. Attendees
will learn about most of the critical aspects of cell culture from
equipment maintenance and media selection to cell growth
and cryopreservation. Participants will have ample time to
ask specific questions and get worthwhile answers.
Topics to be discussed:
• Introduction to Cell Culture
• Equipment use and decontamination
• Biological safety cabinets and CO2 incubators
• Contamination prevention and types of contamination
• Cell Culture Media I and II
• Cell verification maintenance and storage
• Cell types, microscopy and confluency
• Transfection technology
• Clonal isolation of animal cells
• Primary culture and animal cell attachment and signaling
• Growth curves, growth strategies for growing animal cells
in culture
Timothy Fawcett has been in the biotechnology business for
over 30 years. Trained as a biochemist he has held senior
positions in both academics and industry and has been a
mentor to many young scientists throughout his career. For
the last 13 years Dr. Fawcett has been the Director of the
BioTechnical Institute of Maryland (BTI) a non-profit institute
located in Baltimore, Maryland. He is also the Founder
and Director of BioSciConcepts, a social venture of BTI
that provides hands-on training for professional scientists
in cell culture, baculovirus based expression, as well as
topics such as molecular biology, PCR and real-time PCR.
BioSciConcepts is an internationally recognized provider of
expertise in cell culture and the biological sciences and has
provided consultation services to several small and large
biotechnology companies. Dr. Fawcett has a deep knowledge
of biotechnology and has experience in most of the technical
aspects of the workflow.
TS5: INTRODUCTIONTO BIOLOGICS
FORMULATION AND DELIVERY
Instructors:
Pooja Arora, Ph.D., Senior Manufacturing
Technical Specialist, Genentech, a member of
the Roche Group
Timothy Kelly, Ph.D., Vice President,
Biopharmaceutical Development, KBI
Biopharma, Inc.
The course will focus on strategies to plan and execute
preformulation and formulation development studies for
biologics, which require co-optimization of multiple physical,
chemical and conformational stability attributes while
operating under accelerated timelines to deliver the drug to
the clinic. The course begins with an overview of biophysical
and biochemical properties of proteins. A typical development
workflow (including statistical analysis and DOE elements)
will be outlined to demonstrate the core elements employed
during protein formulation. The course concludes with real-
world examples from formulation development projects for
both liquid and lyophilized products.
• Basics of protein biochemistry, with focus on folding
mechanism, stability and structural hierarchy
• Degradation pathways relevant to biologics shelf life
• Biophysical and analytical characterization tools
About the Instructors:
Pooja Arora is a Senior Manufacturing Technical Specialist in
the Global Biologics Manufacturing Science and Technology-
Drug Product at Genentech. Pooja has more than twelve
years of experience in protein biophysical and analytical
characterization. Her responsibilities at Genentech include
technical transfer of commercial Drug Product manufacturing
process to both internal and external manufacturing sites.
Pooja has extensive experience in development of robust drug
product and manufacturing process for protein therapeutics,
including identification of optimum formulation conditions
that impart stability to achieve the desired shelf-life, use time
stability and selection of primary packaging components.
Pooja earned her Ph.D. in Chemistry from Duke University.
Tim Kelly has over 20 years of experience in protein and
nucleic acid characterization. In his role at KBI Biopharma,
Tim is responsible for analytical development, formulation
development, and quality control. Tim’s experience includes
the analytical development, formulation development,
characterization and/or production of more than 200 clinical
and commercial protein therapeutics, including monoclonal
antibodies, enzymes, cytokines, fusion proteins, PEGylated
proteins, protein vaccines, and peptides. Tim has led the
successful formulation development of over 95 clinical and
commercial biopharmaceutical products, including liquid and
lyophilized dosage forms for intravenous and subcutaneous
administration, at protein concentrations ranging from 10µg/
mL to 200mg/mL. Tim earned his Ph.D. in Molecular Genetics
& Biochemistry from Georgia State University.
Connect with Us!
The Bioprocessing Group
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Needham, MA 02494
www.healthtech.com
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10th
Annual
Optimizing Cell CultureTechnology
Enhancing Knowledge for Growing Cells
STREAM 1
Cell Culture & Cell
Line Development
Suggested Short Course*:
Optimizing Media – Achieving Super Soup
Monday, August 18, 9:00-11:30 am
*Separate registration required; see page 3 for details
MONDAY, AUGUST 18
8:00 am Pre-Conference Registration
and Morning Coffee
9:00-11:30 Short Course*: Optimizing
Media - Achieving Super Soup
11:30 Main Conference Registration
PROCESS IMPROVEMENT
STRATEGIES
1:00 pm Chairperson’s Opening Remarks
Lada Laenen, Ph.D., Head, Cell Culture and
Microbiology, MSAT, Genzyme, a Sanofi Company
»»1:10 OPENING KEYNOTE
PRESENTATION:
The Future of Cell CultureTechnology
Bert Frohlich, Ph.D., Director, Bioengineering, Shire
Human Genetic Therapies
This talk will begin with a brief overview of factors
influencing the direction of cell culture technology
and those shaping the biopharmaceutical industry.
The overview will serve to tie together many
of the subjects covered in this conference.
Emphasis will then shift to large-scale production
of recombinant proteins and the increasing need
for control of product quality and consistency.
Emerging technologies, quality-by-design and tools
for optimization and achieving improved process
understanding will also be touched upon.
1:45 A Statistical Approach to Enhance
Productivity in Cell Culture Fed Batch
Processes
Hanuman Mallubhotla, Ph.D., Research Director and
Head, Biopharmaceutical Development, Syngene
International, Ltd.
A Design-of-Experiments (DoE) methodology was
developed in deriving optimal basal media, feed media
and process parameter settings for a cell culture
process. Fifteen basal media and seven feed media
were screened; feed rate and temperature conditions
were optimized based on statistically observed
interaction profiles as well as amino acid profiles.
Through optimized feed rate and biphasic-temperature
culture conditions, the titer was increased by >
6.0-fold from ~ 0.5g/L in shake flasks to > 3.0 g/L
in bioreactors.
2:15The Application of Systems Biology
in Bioprocess Optimization
Len van Zyl, Ph.D., CEO and CSO, ArrayXpress, Inc.
The integration of a Systems Biology approach to
optimize and speed-up upstream and downstream
bioprocesses is gaining significant traction in
the biopharmaceutical industry. Improving our
understanding of the cells, the actual bioreactors
themselves, provides for a beginning to end
development approach to improve product quality
and performance. Systems biology as a concept aims
to map all conceivable interactions within a system
through a set of measurable variables.
2:45 Refreshment Break
OPTIMIZING CELL CULTURE PROCESSES
FOR ANTIBODY PRODUCTION
3:15 Antibody Screening in Mammalian
Suspension Cells
Michael R. Dyson, Ph.D., Senior Research Associate,
Biochemistry, University of Cambridge, and Group
Leader, IONTAS, Ltd.
An important step in the process of recombinant
antibody selection and optimisation by phage display
is the conversion to IgG and Fab format and multi-
parallel expression in mammalian suspension cells.
This is to both select for clones that can be expressed
in high yield and provide antibodies for cell-based
functional assays. Methods will be presented for high-
throughput antibody expression in HEK293, CHO and
stem cells including case studies for the selection of
functionally active antibodies.
3:45 Modulation of the Quality
Attributes of a Monoclonal Antibody
Using Micro-L Scale Fed-Batch Cultures
Matthieu Stettler, Ph.D., Manager, Upstream
Development, Biotech Process Sciences, Merck
Serono SA
A high-throughput DoE approach was used to explore
the impact of media and feed components on the
main quality attributes of a monoclonal antibody.
The experiment was performed using a new
cultivation system based on shaking 96-deepwell
plates. This integrated early cell culture process
development approach was found to be particularly
fast and resource efficient and the outcome
correlated ideally with confirmations performed in
larger cell culture volumes such as shake tubes and
small-scale bioreactors.
4:15 Small Group Breakout Discussions
This session provides the opportunity to discuss
a focused topic with peers from around the world
in an open, collegial setting. Select from the list of
topics available and join the moderated discussion
to share ideas, gain insights, establish collaborations
or commiserate about persistent challenges.
Then continue the discussion as you head into
the lively exhibit hall for information about the
latest technologies.
5:15 Discussion Report-Outs
5:30 Grand Opening Reception in the
Exhibit Hall with Poster Viewing
7:00 End of Day
Needham, MA 02494
www.healthtech.com
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10th
Annual
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Cell Culture & Cell
Line Development
TUESDAY, AUGUST 19
7:00 am Registration and Morning
Coffee
PRODUCTIVITY & QUALITY:
RAW MATERIALS
7:55 Chairperson’s Remarks
Jörg von Hagen, Ph.D., Director, Global Cell Culture R & D, Merck
8:00 Cell Culture Media Improvements
– Considerations from a Powder
Perspective
Jörg von Hagen, Ph.D., Director, Global Cell Culture
R&D, Merck
To improve the batch-to-batch consistency of dry
powder cell culture media, and narrow the variations
arising from chemically defined media, different
strategies will be presented to control impurities
in complete formulations and single ingredients
that are important to understand to control cQA
of biopharmaceuticals and allow the reproducible
regulation of the bioprocess by simplification of, e.g,
feed strategies and simpler powder handling. We
will present the correlation of the media dissolution
coefficient [dc] and the impact on powder solubility
and homogeneity as end points depending on the
formulation as a result of the concentrations of
hygroscopic molecules.
8:30 An Inflatable Chamber for Cell
Culture under Hypoxia
Hua Zhong, M.D., Ph.D., FCAP, Assistant Professor,
Pathology and Lab Medicine, Rutgers Cancer Institute
of New Jersey, Rutgers Robert Wood Johnson
Medical School
Tissue hypoxia is a common pathophysiological
process. Since the 1990s, numerous studies have
focused on investigating cellular adaptation to
experimental hypoxia. An inflatable chamber was
created for cell culture under hypoxic conditions. It
yielded reproducible results in experiments detecting
hypoxia-induced accumulation of hypoxia-inducible
factor 1 a (HIF-1 a ) and hypoxia-induced expression of
HIF-1-regulated genes. Basic properties and additional
utilities of the chamber will be discussed and
compared to pre-existing ones.
9:00 New Approach to Release Critical
Raw Materials: Risk VersusTesting-
Based Approach
Lada Laenen, Ph.D., Head, Cell Culture and
Microbiology, MSAT, Genzyme, a Sanofi company
Regulatory guidelines require for testing to be
conducted in order to confirm safety and consistency.
Conducting raw material analysis by selection of
appropriate risk assessment tools and identifying
test methods, to successfully meet the challenges
of testing, can prevent costly production issues
and possible delays. Throughout the case studies,
approaches and results will be presented in order
to address potential risk, impact and remediation
plans when introducing new raw materials.
Furthermore, control strategies and managing risks
will be discussed.
9:30 Sponsored Presentation
(Opportunity Available)
9:45 Coffee Break in the Exhibit Hall
with Poster Viewing
CULTURING CHO CELLS
10:30 Combined Glutamine and
Glutamate Consumption Rate can be a
Predicator for MaximalTotal Cell Density
and Cell Sustainability in Fed-Batch
Culture of CHO Cells
Yung-shyeng Tsao, Ph.D., Senior Principal Scientist,
BioProcess Technology and Expression, Biologics
Bioprocess Development, Merck & Co.
The metabolic profiles of 14 CHO-DXB11 clones in
fed-batches were studied. During the exponential
growth phase their total cell density were found to
be linearly proportional to their respective combined
glutamine and glutamate consumption rate. The
CHO clones with higher efficiency in converting
glutamine and glutamate into cell mass were found
to reach higher maximal total cell density as well
as higher integral of viable cell concentration (IVCC)
in fed-batches. This principle may be useful for
clone selection.
11:00 Metabolic Engineering for
Nutrient Biosynthesis in CHO Cells
Kathleen Kopycinski, Senior Associate Scientist, Cell
Culture Development, Biogen Idec
Our current bioprocess platform utilizes a highly
developed, chemically defined media and achieves
one of the highest fed batch cell densities in the
industry. Despite a nutrient-rich feed medium that
includes optimized concentrations of many amino
acids and co-factors; frequent feeding cannot supply
sufficient concentrations of some of the nutrients
necessary for maximal growth and productivity.
We have used metabolic engineering in CHO cells
to overexpress key enzymes necessary for the
biosynthesis of a key nutrient, thus reducing or
eliminating additional nutrient supplementation.
11:30 Metabolic Flux Analysis of Amino
Acid Pathways in CHO Cell Culture
Véronique Chotteau, Ph.D., Researcher, CETEG Cell
Technology Group, Industrial Biotechnology, KTH
Royal Institute of Technology
The determination of the metabolic fluxes occurring
in the cell and in interaction with its environment is
key for a better knowledge of the cell metabolism in
culture. Models of the metabolic fluxes provide very
powerful tools to understand and simulate the cell
metabolism in culture, eventually leading to process
optimization. We have developed approaches to
model the amino acid metabolism based on their
extracellular measurement. Our strategy is to obtain
a single model that includes different cell states
generating a powerful tool for process optimization.
12:00 pm Sponsored Presentations
(Opportunities Available)
12:30 Luncheon Presentation
(Sponsorship Opportunity Available)
1:15 Session Break
Needham, MA 02494
www.healthtech.com
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10th
Annual
STREAM 1
Cell Culture & Cell
Line Development
CULTURING CHO, MAMMALIAN
& INSECT CELLS
Michael R. Dyson, Ph.D., Senior Research Associate,
Biochemistry, University of Cambridge, and Group
Leader, IONTAS, Ltd.
2:00 AMBR™ 48 as aToolforProcess
Development and Characterization for
the Manufacture of a Biosimilar in CHO
Cells
Matthew Zustiak, Ph.D., Principal Scientist, Cell
Culture Development, Gallus Biopharmaceuticals
A QbD approach is effective in the process
development for the development of a biosimilar
since the exact critical quality attributes are known.
A high-throughput method of process development
and characterization is desired. We used the Ambr™
48 system as a scale-down model for process
development and as a tool for key process parameter
identification and characterization in the upstream
process for the manufacture of a biosimilar. The
results of this development will be discussed.
2:30 ScalableTransient Sponsored by
Transfection for
Antibody & Vaccine
Production in Multiple CHO, Insect, and
Other Mammalian Cells
James Bradey, Ph.D., Director, Technical Applications,
MaxCyte, Inc.
Flow electroporation streamlines biotherapeutic
and vaccine development by enabling large-scale
transient gene expression directly in the cells of
interest including multiple CHO strains, insect cells
and other mammalian cell lines. Flow electroporation
produces significantly higher yields for a variety of
proteins including antibodies, antibody-like molecules,
and vaccines, when compared to other transfection
methods. Data will be presented demonstrating
the versatility, scalability, and multi-gram production
capacity of flow electroporation.
3:00 Mammalian Cell Fluid
Mechanics and Scale-Up/Scale-Down
Considerations
Jeffrey Chalmers, Ph.D., Professor, Chemical and
Biomolecular Engineering; Director, Analytical
Cytometry Shared Resource, Comprehensive Cancer
Center, The Ohio State University
The perception of “shear sensitivity” has historically
put an arbitrary upper limit on agitation and aeration
in bioreactor operation; however, as cell densities and
productivities continue to increase, mass transfer
requirements can exceed those imposed by these
arbitrary low limits. This presentation will mainly focus
on publications from both academia and industry,
and some recent experimental data on microcarrier
cultures regarding the effect of hydrodynamic forces
on industrially relevant animal cells, and on the
general observation with respect to scale-up.
3:30 Refreshment Break in the Exhibit
Hall with Poster Viewing
EMERGINGTOOLSTO
SUPPORT CELL CULTURE
4:15 Raman Spectroscopy as a PATTool
Sofie Goetschalckx, Head, Cell Culture Manufacturing
Science Team, MSAT, Cell Culture and Microbiology,
Genzyme, a Sanofi Company
To better understand critical quality attributes of
manufactured biologics, and apply the FDA’s process
analytical technology (PAT) initiative, industry
increasingly seeks means by which critical process
parameters can be monitored and controlled in real-
time. Raman spectroscopy can be a very interesting
tool as it is useful for PAT and QbD applications and
allows for real-time, quick, in situ monitoring and
bioprocess control. Data presented outlines the use
of Raman spectroscopy in monitoring cell culture
performance in recombinant protein production.
4:45 Comprehensive, Quantitative
Bioprocess Productivity Monitoring
Using Fluorescence EEM Spectroscopy
and Chemometrics
Alan G. Ryder, Ph.D., Senior Lecturer, Nanoscale
Biophotonics Laboratory, School of Chemistry,
National University of Ireland, Galway
Fluorescence excitation-emission matrix (EEM)
spectroscopy is used for quantitative predictive
analysis of glycoprotein production in a CHO cell
fed-batch process. EEM spectra of complex solutions
are very sensitive to compositional change and as
cultivation progressed, the emission of tyrosine,
tryptophan, and the glycoprotein product showed
significant differences, and this was used to follow
culture progress via chemometrics. A second
aspect of the study involved developing quantitative
predictive models of process performance based
on glycoprotein yield. This methodology opens the
possibility of early-stage intervention for poorly
performing lots.
5:15 End of Conference
5:15- 6:00 Dinner Short Course
Registration
6:00 – 8:30 Dinner Short Course*:
Extractables & Leachables:
Study Design for Disposable and
Qualification Consideration
Maximize Your Experience Onsite at The Bioprocessing Summit!
The Intro-Net offers you the opportunity to set up meetings with selected attendees before,
during and after this conference, allowing you to connect to the key people you want to
meet. This online system was designed with your privacy in mind and is only available to
registered session attendees of this event.
Needham, MA 02494
www.healthtech.com
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4th
Annual
Bioproduction: Scale, Bioreactors
& Disposables
Making ItWork
STREAM 1
Cell Culture & Cell
Line Development
Extractables & Leachables: Study
Design for Disposables and
Qualification Consideration
Tuesday, August 19, 6:00-8:30 pm
WEDNESDAY, AUGUST 20
Coffee
BIOPRODUCTION STRATEGIES
Stefan Schmidt, Ph.D., Vice President, DSP,
Rentschler Biotechnology
»»8:15 KEYNOTE PRESENTATION
The Future of Biologics Development and
Manufacturing
Jens H. Vogel, Ph.D., Executive Director & Head,
Process Sciences USA, Boehringer Ingelheim
Fremont, Inc.
With monoclonal antibodies dominating today’s
biologics pipelines, and cost of goods that
represent only a very small fraction of drug
prices, biologics development and manufacturing
is typically focused on fully leveraging and
continuously improving a relatively mature
“consensus” industry platform. However, the
staggering cost of overall drug development in
today’s pharma business model, as well as, strong
pressures to reduce overall healthcare cost will
fuel new models such as Biosimilars, Biobetters
and personalized or precision medicines. Flexible
and innovative development and manufacturing
concepts will support these new models.
9:00 Optimization of a Pilot-Scale Model
System
William Brazier, Principal Engineer, Amgen
9:30 Fed-Batch Process for the
Production of Recombinant
Hemagglutinins, Components of
InfluenzaVaccine Flublok
Nikolai Khramtsov, Ph.D., Associate Director,
Upstream Development, Protein Sciences
Corporation
We developed a universal process for the
expression and purification of influenza recombinant
hemagglutinins (rHA) at different scales without
re-developing the process for new rHAs. We have
optimized the process to manufacture drug substance
in less than two months from cloning the gene to the
production of drug substance.The fed-batch process
yielded at least a two fold increase for all seasonal and
pandemic rHAs.The quality of purified rHAs produced
by the fed-batch process is similar to rHA proteins
produced in batch process.
with PosterViewing
DISPOSABLES
10:45 DSP Single-UseTechnologies to
Move to a Fully-Closed Process
Steven Strubbe, DSP Specialist, Merck
Single-use biomanufacturing systems promise to
reduce the risk of cross-contamination, make clinical
development faster, technology transfer easier
with a lower process cost, minimal validation and
cleaning issues. Thus future process designs will
require downstream device innovation to move open
phases to fully closed ones. New technologies, such
as precipitation in single-use bags or disposable
CEX devices for Mab purification were assessed.
Performance results as well as process cost, scale-up
considerations and facility designs will be discussed.
11:15 Opportunities and Limits of
Disposables in Non-Platform Processes
Stefan Schmidt, Ph.D., Vice President, DSP,
Rentschler Biotechnology
Single-use systems are an industry standard in
platform processes. But current pipelines contain
many novel fusion proteins. These molecules are
difficult to manufacture due to low titer, lack of
an affinity matrix, or tendency to aggregate. In
selected case studies, we demonstrate when
it is economically and technically reasonable
to rely on single use, when a hybrid model is
advantageous, or when conventional approaches
are preferable. Advice will be given on successful
process design, optimization strategies, and critical
manufacturing parameters.
12:00 Cleaning and
Compliance: Considerations
forToday’s Bioprocessing
Sponsored by
Michael Brady, Ph.D., Director,
Microbiology Services,Toxikon Corporation
Bioprocessing equipment requires a validated cleaning
procedure for efficient bioproduction, product safety,
and regulatory compliance.This brief presentation
will review critical process parameters, analytical and
sampling methods, as well as acceptance criteria for
cleaning processes. Maintenance of a validated state
and inspection considerations will be presented.
12:15 pm Luncheon Sponsored by
Presentation: Scale-Up
Evaluation of Mobius
CellReady Disposable
Bioreactor Operation from 3L
to 50L Scale: Best Practices for a
Perfusion Application
Michael Cunningham, Ph.D., Senior Applications
Scientist, Biomanufacturing Sciences Network, EMD
Millipore
The Mobius CellReady bioreactor portfolio provides
disposable bioproduction capabilities important for
the optimal performance of mammalian cell cultures
in suspension. This presentation will review the
utilization of EMD Millipore’s 3L and 50L CellReady
single-use bioreactors for a perfusion-based CHO
cell bioproduction application, where hollow fiber
connection and operation points to consider will be
reviewed. In addition, results of the evaluation of
scalability from bench to engineering scale will be
presented.
1:30 Session BreakCambridge Healthtech Institute,
Needham, MA 02494
www.healthtech.com
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4th
Annual
& Disposables
Making ItWork
STREAM 1
Cell Culture & Cell
Line Development
BIOREACTOR OPTIMIZATION
2:00 Scale-Up by Design: How to Design
a Production Scale Bioreactor
Yogesh Waghmare, Ph.D., Process Engineer III, Global
Manufacturing Science and Technology, Genzyme, a
Sanofi Company
This presentation will describe a methodology of how
a production scale bioreactor was re-engineered and
re-designed in order to reduce the risk of scaling-
up a microcarrier-based mammalian cell culture.
The approach taken here involved synergistic use
of engineering tools including computational fluid
dynamics models, empirical analysis and pilot
scale wet testing. Three dimensional printing of
the pilot scale reactor and its components was
chosen as the method to facilitate meeting tight
marketing timelines.
2:30The Application of Advanced
Process Control and Model-Based
Strategies for Improved Bioprocess
Performance
Brian Glennon, Ph.D., Associate Professor, Chemical
& Bioprocess Engineering, University College Dublin
The development of robust, consistent and reliable
bioprocess performance can be greatly enhanced
through the application of model-based strategies
which mirror equivalent process development
approaches in other manufacturing industries. The
integration of such models into process control
strategies can further enhance process optimization
performance. In this talk, we will present the
experimental and theoretical framework for such
strategies. In addition, we will discuss some results
from specific studies with cell culture processes in
PAT-enabled pilot-scale bioreactor batches.
3:00 Using Lactate Dehydrogenase
Measurements to Quantify, Understand
and Predict Cell Growth in a High-
Density Perfusion Bioreactor
Cheng Cheng, Process Engineer, Late Stage Cell
Culture Development, Genzyme, a Sanofi company
We developed a model for lactate dehydrogenase
(LDH) release kinetics that uses intracellular and
extracellular LDH concentration measurements to
estimate cell lysis rates as well as intrinsic growth
and death rates for high-density CHO cell culture
in long-duration perfusion bioreactors. Using this
model, we demonstrate that intrinsic cell growth rate
remains stable throughout a 60-day bioreactor run
despite differences in cell culture performance. We
also show that our model for cell death and growth is
a useful tool for appropriately calculating generation
number across different bioreactor scales.
SCALE-UP / SCALE-DOWN
4:15 Efficient Use of Small-Scale Models
during Manufacturing Development of
AAV Gene-Therapy Products
Arie van Oorschot, Head, Process Development,
uniQure
Glybera, uniQure’s first gene therapy product, received regulatory
approval in the European Union. Within uniQure, insect cells and
baculoviruses are used to manufacture AAV-based gene therapy
products. To reduce the amount of batches and analytical packaging
needed for manufacturing gene therapy products, scale-up
development programs are ongoing. Development and qualification
of multiple small-scale models representative for different process
steps is considered essential to support scale-up programs and tech
transfer processes.
4:45 High-Throughput System for
Cell Culture (HTS-CC) Comparability:
Generating Data to Guide 2L Small-
Scale Experiments
Kristen Douglas, Ph.D., Associate Scientist and Group
Leader, Late Stage Cell Culture, Genentech,
A Member of the Roche Group
5:15 Networking Reception in the
6:30 End of Day
THURSDAY, AUGUST 21
Coffee
PROCESS DEVELOPMENT
Brian Glennon, Ph.D., Associate Professor, Chemical & Bioprocess
Engineering, University College Dublin
8:30 Process Development Strategies
to Enable Robust and Scalable
Downstream Manufacturing Processes
Mi Jin, Ph.D., Group Leader, Biologics Process
Development, Bristol-Myers Squibb
Monoclonal antibodies (mAbs) and Fc Fusion proteins
constitute a major portion of the biopharmaceutical
pipeline. Although the framework sequences and
structural similarity among this class of molecules
enable a platform approach to process development,
product specific physicochemical properties can
still pose significant challenges for process design,
scale up and manufacturing process control. In this
presentation, we will use several case studies to
show some common challenges in chromatography,
high concentration UF/DF and VF process design,
and demonstrate the use of combined experimental
and model based approaches to identify and mitigate
potential issues early during development to deliver
robust and scalable manufacturing processes.
9:00 Scale-Up Effects on Process
Performance and Product Quality
Kishan Rao, MS, Senior Manager, Technical Services,
Alexion Pharmaceuticals
Great care must be taken when committing to
in-process limits or product quality specifications,
particularly when there is limited full-scale process
data to set those limits. Often, the clinical experience
with a product quality range is what drives the
product specification limits. If ranges are set
prematurely or set overly narrow, inherent process
variability or assay variability can cause the in process
limits to be missed, the critical quality attribute
to have a failure which ultimately could lead to
lot rejection.
Needham, MA 02494
www.healthtech.com
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4th
Annual
& Disposables
Making ItWork
STREAM 1
Cell Culture & Cell
Line Development
9:30 Simplifying Fed Batch Processes
Jörg von Hagen, Ph.D., Director, Global Cell Culture
R&D, Merck
I will present how modifications on amino acids allow
for a single feed strategy to ease bioprocessing. This
approach reduces variations and allows for a better
control of the process design space by additionally
reducing the handling risk usually associated with
complex fed batch regimes. We can also show
significant improvements in titer based on the
prolonged process with reduced cell-death without
all the implications resulting from using a separate
alkaline L-Tyrosine – L-Cysteine feed.
with PosterViewing
ENSURING QUALITY
10:45 ProtonTransfer Reaction Mass
Spectrometry -
A Non-Invasive Approach for Advanced
Bioprocess Monitoring
Gerald Striedner, Ph.D., Assistant Professor,
Biotechnology, University of Natural Resources and
Life Sciences, Vienna
Limited real-time access to physiology relevant
process variables is the major obstacle on the way to
process understanding and rational process design.
Proton transfer reaction mass spectrometry employed
for real time measurement of volatile compounds
in the offgas stream of bioreactors provides direct
access to such meaningful information. Beside this
the major advantage of this non-invasive real time
monitoring system is that it can be implemented as
additional monitoring tool even in already existing
GMP production processes without interfering
regulatory requirements.
11:15 Evaluation of Monochromatic UV
for Viral Inactivation of Mammalian Cell
Culture Media
LiYing Yang, Ph.D., Scientist II, Manufacturing
Sciences & Technology, MedImmune, Inc.
11:45 Unique Mixing with Minimal
Shear in Biobags
Henry Bungay, Ph.D., Emeritus Professor, H.P.
Isermann Department of Chemical Engineering,
Rensselaer Polytechnic Institute
In a machine that agitates up to sixteen transparent
disposable biobags by alternate squeezing and
release, unexpected eddies are observed when
the front and back walls of the biobag are fastened
together in favored locations. Restraining arms with
lights and photodiodes send continuous turbidity data
to a computer. Mixing determined by signals from the
computer can be set visually for very low-shear for
tissue culture or for turbulence for molds or bacteria.
12:15 pm Innovative Sponsored by
SimulationTechnologies for
Bioreactor and Process
Equipment Design
Marc Horner, Ph.D., Lead Technical Services Engineer,
ANSYS, Inc.
ANSYS experts will present simulation solutions for
bioreactor and process equipment design. ANSYS
simulation can offer insight into chemical reactions,
mixing, and multiphase flows commonly found in
bioreactors. Engineering simulation also predicts
temperature, oxygen and species distribution as
a function of the operating conditions in pilot or
production reactor designs.
Needham, MA 02494
www.healthtech.com
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6th
Annual
Optimizing Cell Line Development
Enhancing Expression
STREAM 1
Cell Culture & Cell
Line Development
Suggested Short Course*
Bioprocess Development:
Considerations for the Quality and
Safety of Materials in Contact with
Biologics
Thursday, August 21, 6:30-9:00 pm
THURSDAY, AUGUST 21
CHO
1:55 pm Chairperson’s Remarks
Jesús Zurdo, Ph.D., Head, Innovation, Biopharma
Development, Lonza Biologics plc
Moving Beyond the Off-the-Shelf CHO
Host to New Improved Expression Hosts
Scott Estes, Ph.D., Director, Cell Culture
Development, Biogen Idec, Inc.
CHO does not have a dedicated secretory
phenotype and may be ill-equipped to handle
the elevated secretory load incurred during the
production of biologics. To facilitate a rational
selection of candidate targets, we mined published
genome wide screens to identify key regulators
of secretion. These targets were overexpressed
in CHO cells and the resulting engineered hosts
studied to determine their ability to express
mAbs. Of the fourteen genes investigated, we
identified one, a small GTP-binding protein, which
significantly improved productivity.
2:45 FullTranscriptome Analysis of
Chinese Hamster Ovary Cell Lines
Producing a Dynamic Range of
Coagulation Factor VIII
Christian Schrøder Kaas, Ph.D., Researcher,
Mammalian Cell Technology, Novo Nordisk A/S
Coagulation Factor VIII (FVIII) is an important
biopharmaceutical for treating haemophilia A. Yields
of FVIII produced in Chinese Hamster Ovary cells
are low and thus a better understanding of what
constitute a high producing cell line is desired. In this
study a full transcriptome analysis was undertaken
to analyse a series of CHO cell lines producing
different levels of FVIII. The initial aim is to pinpoint
the differences between high and low producers of
FVIII and eventually this information may be used to
engineer better production cell lines.
3:15 Optimization of the CHEF1 CHO
Expression Platform
Howard Clarke, Ph.D., Director, Upstream Process
Development, CMC Biologics
The Chinese Hamster Elongation Factor 1a (CHEF1) platform is
designed for the manufacture of recombinant therapeutic proteins
in stable CHO cells using chemically defined media. CHEF1
expression has been shown to improve yield over CMV-controlled
plasmids in CHO cells and is associated with growth, such that
titer increases with volumetric productivity. Recent integration
of CMV regulatory domains into the CHEF1 plasmid has led to
increased productivity in the later-stage process, increasing
production duration and overall yield.
3:45 Innovative Simulation Sponsored by
Technologies to Optimize
Cell Culture
Marc Horner, Ph.D., Lead Technical Services Engineer,
ANSYS, Inc.
Cell culture is a delicate process in which cell growth
and occasionally cell damage are influenced by flow
conditions. Engineering simulation and CFD are
used to investigate the transient flow behavior in
bioreactors. ANSYS experts discuss how influential
parameters affect the flow pattern and hence the
evolution of cell culture. This insight opens the door to
simulation based process optimization.
4:45Targeted Integration of “Hotspots”
in CHO Genome for Rapid Generation of
Stable and High Monoclonal Antibody
Producing Cell Lines
Yuansheng Yang, Ph.D., Research Scientist, Animal
Cell Technology, Bioprocessing Technology Institute
Targeted integration into hotspots for cell line
development is attractive for rapid generation of cell
lines with stable and high productivity. Converting the
concept to practical application is very challenging.
We established protocols for generation of master
clones with hotspots tagged with a vector carrying site
specific recombinase recognition sequence.The master
clones allowed rapid generation of monoclonal antibody
producing cell lines with high and stable productivity.
5:15 CHippO: Manipulation of the Hippo
Signaling Pathway in CHO to Produce a
Superior Host for Recombinant Protein
Expression
John Follit, Ph.D., Scientist I, Cell Line Technology,
Biogen Idec, Inc.
The Hippo signaling pathway controls cell proliferation
and organ size by activating Yes-associated protein
1 (Yap1). We hypothesized that altering the Hippo
pathway may result in an engineered host cell
with an improved bioprocessing phenotype. To this
end, we created Yap1 overexpressing CHO cells
(CHippO) and auditioned the new host with model
monoclonal antibodies. CHippO cells exhibited
significant boosts in mAb expression with top clones
from the engineering CHIPPO host achieving titers
up to three times higher than clones arising from an
unmodified host.
5:45 End of Day
5:45-6:30 Dinner Short Course
Registration
6:30-9:00 Bioprocess Development:
Biologics *
Needham, MA 02494
www.healthtech.com
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6th
Annual
STREAM 1
Cell Culture & Cell
Line Development
FRIDAY, AUGUST 22
Coffee
CELL LINE DEVELOPMENT
Howard Clarke, Ph.D., Director, Upstream Process
Development, CMC Biologics
»»8:30 FEATURED PRESENTATION
Cell Line Development Approaches for
Speed,Titer and Product Quality
Till Wenger, Ph.D., Associate Director, Cell Biology
& Cell Culture II, Process Sciences, Boehringer
Ingelheim Pharma
In developing NBEs, speed, titer and an excellent
product quality is key. For biosimilars, the essential
target is matching the originator product quality.
Here, we show how the use of a platform based on
well characterized cell lines and thorough process
understanding can be used to achieve fast and
reliable development of high-titer cell lines, how
cell line development can be accelerated, and how
specific host cells and processes parameters can be
used to influence product quality attributes.
9:00 Antibody Membrane Switch
(AMS)Technology for Facile Cell Line
Development
Bo Yu, Ph.D., Co-Founder and CSO, Larix Bioscience,
LLC
Antibody Membrane Switch (AMS) technology is
the most effective and time efficient technology
available today for the isolation of production cell
lines. AMS technology utilizes a unique switch
mechanism of alternative splicing and site-specific
DNA recombinase to turn cells from expressing
membrane-anchored antibodies into production
cells secreting the antibody. This enables screening
of hundreds of millions of cells per day by FACS,
eliminating the requirement for gene amplification.
Utilizing AMS technology can reduce cell line
screening time from 6-8 months to 2-3 months.
9:30 Innovative Cell Line Development
for the Expression of Glenmark’s Novel
Bispecific BEAT Format
Martin Bertschinger, Ph.D., Team Leader, Cell
Line & Early Process Development, Glenmark
Pharmaceuticals
Glenmark’s BEAT bispecific antibody format is based on
engineered IgG scaffolds and maintains key antibody
properties such as thermostability, low immunogenicity
and pharmacokinetics. Production and purification are
achieved using established platform technologies.This
presentation will focus on the cell line development.
Innovative solutions were found in order to rapidly
generate and select high producing, stable cell lines and
to drive the optimal pairing of heterologous heavy and
light chains while minimizing unwanted side products.
10:00 Mid-Morning Snack in the Exhibit
EARLY ANALYSIS OF CELL LINES
TO PREDICT DEVELOPABILITY
10:45 Early Pre-Process Risk
Assessment: Alternatives to One-Size-
Fits-All Process Development to Reduce
Product Attrition and Streamline
Development
Jesús Zurdo, Ph.D., Head, Innovation, Biopharma
Development, Lonza Biologics plc
Biomanufacturing processes are still complex, largely
unpredictable, and very much linked to the nature of
the product to be made. In most cases, uncertainty
is managed with extensive screening, testing and
analysis, which is tremendously costly and time-
consuming. We present some alternative approaches
to development that have a greater emphasis in the
design and selection of the therapeutic candidate for
optimal safety, stability and formulability, combined
with faster approaches for early material generation.
Potential impact in streamlining clinical development
will be discussed.
11:15 High-Throughput Imaging during
Cell-Line Development to Increase the
Assurance of Clonality
David Shaw, Ph.D., Group Leader, Early Stage Cell
Culture, Genentech, Inc.
11:45 Omics Analyses ofTherapeutic
Monoclonal Antibody Production Cell
Lines to Improve Productivity
Sohye Kang, Ph.D., Senior Scientist, Product Attribute
Sciences, Amgen, Inc.
We examined various production cell lines expressing
different therapeutic monoclonal antibodies and
investigated their intrinsic properties associated with
culture performance and phenotypes. 17 different
cell lines displaying a wide spectrum of productivity
range were chosen and treated with the same media
and process conditions to keep the external factors
constant. Microarray-based transcriptomics and
LC-MS/MS shotgun proteomics technologies were
utilized to obtain expression landscape of different
cell lines and reveal cellular mechanisms associated
with different culture phenotypes, including
productivity, proliferation rate and cell size.
OPTIMIZING
PRODUCTIVITY &YIELD
1:30 Optimization of BiologicsYield in
Microbial and Mammalian Expression
Systems
Ian Fotheringham, Ph.D., President & Co-Founder,
Industrial Biotechnology, Ingenza, Ltd.
E. coli-based expression systems can be unsuitable
for the production of certain mammalian proteins/
enzymes often yielding insoluble, inactive product.
We have developed optimized microbial and
mammalian cell lines and expression systems for
the production of protein biologics that consistently
yield active soluble protein. Our systems are free of
third party IP encumbrance, enable manufacturing
to GMP standards and facilitate straightforward
protein purification.
2:00 ImprovingYields in a Novel
Drosophila S2 Expression System
Wian de Jongh, Ph.D., CSO, ExpreS2ion
Biotechnologies
ExpreS2ion Biotechnologies is responsible for the
process development of two malaria vaccines in
collaboration with The Jenner Institute, Oxford
University and the Centre for Medical Parasitology,
Copenhagen University. It is vitally important to
reduce cost-of-goods for these vaccine due to
the geographic location of endemic areas and the
philanthropic funding sources involved in vaccine
Needham, MA 02494
www.healthtech.com
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6th
Annual
STREAM 1
Cell Culture & Cell
Line Development
distribution. ExpreS2ion has therefore focused
on improving yields though cell line selection and
process improvement strategies, which will be
presented in this talk.
2:30 Highly Multiplexed Subcellular RNA
Sequencing in situ
Jehyuk Lee, M.D., Ph.D., Genetics, Wyss Institute for
Biologically Inspired Engineering, Harvard University
We describe fluorescent in situ RNA sequencing
(FISSEQ), in which stably cross-linked cDNA
amplicons are sequenced within a biological sample.
Using 30-base reads from >8000 genes in situ, we
examine RNA expression and localization in primary
fibroblasts during wound healing in vitro. Our platform
enables massively parallel detection of genetic
elements, including gene transcripts and molecular
barcodes, for studying cellular phenotype, gene
regulation, and environment in situ.
CELL LINE DEVELOPMENT
INNOVATIONS
3:15 A Vector-Free Microfluidic
Platform for Intracellular Delivery and
Manipulation of Cell Function
Armon Sharei, Ph.D., Research Associate, Chemical
Engineering, Massachusetts Institute of Technology
(MIT); Co-Founder, SQZ Biotech
Intracellular delivery of macromolecules is a
challenge in research and therapeutic applications.
Existing vector-based and physical methods
have some limitations, including their reliance on
exogenous materials or electrical fields. We describe
a microfluidic approach to delivery in which cells
are mechanically deformed as they pass through a
constriction 30-80% smaller than the cell diameter.
By enabling the delivery of RNA, DNA, proteins,
and nanoparticles, this technique has demonstrated
effective manipulation of cell behavior in a range
of applications.
3:45 High-Throughput Automation
Solutions in Bioprocess Development
Gregory Keil, MS, Senior Scientist, Merck
Automation and high-throughput techniques have
become increasingly more important throughout
bioprocess development for therapeutic proteins.
Within Merck’s Bioprocess Development
organization, we have implemented a fully automated
approach to cell line development involving multiple
automation systems designed to streamline many
of the activities involved in cell line and process
development. Here, we will demonstrate how a
modular approach to automation allows for increased
functionality, flexibility, and overall throughput. With
these automation solutions in place, bioprocess
development has observed both increased efficiency
and productivity across the entire platform.
4:15 Applicability of Readily Grown
Mice Cell Lines in Culture for Melanoma
Research
Molly Jenkins, Ph.D., Research Fellow, Microbiology
and Immunology, Norris Cotton Cancer Center, Geisel
School of Medicine, Dartmouth College
Transgenic mouse models allow the study of
melanoma in vivo, however in vitro models are
necessary to better understand the molecular
mechanisms underlying disease progression and
therapy resistance. We have established melanoma
cell lines (Dartmouth Murine Mutant Malignant
Melanoma; D4M cells) from a conditional mouse
model of metastatic melanoma. Here, we report the
characterization of these lines, and demonstrate their
unique ability to correlate in vitro studies on molecular
mechanisms of melanoma with in vivo investigations
on pathology and immunology.
Present a Poster & Save!
Cambridge Healthtech Institute encourages attendees to gain
further exposure by presenting their work in the poster sessions.
To secure a poster board and inclusion in the conference materials,
your abstract must be submitted, approved and your registration
paid in full by July 18, 2014.
• Your research will be seen by leaders from top pharmaceutical,
biotech, academic and government institutes
• Your poster abstract will be published in the conference materials
• Receive $50 off your registration fee
Needham, MA 02494
www.healthtech.com
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2nd
Annual
Overcoming Formulation Challenges
for Biopharmaceutical Development
Optimizing Dosage Form and Process Development for New Biotherapeutics
STREAM 2
Formulation
& Downstream
Processing
Accelerated StabilityTesting of Biologics
MONDAY, AUGUST 18
and Morning Coffee
9:00-11:30 Short Course*: QbD
Strategies for Formulation
CONSIDERATION FOR VACCINES
AND NEW BIOLOGICS
FORMULATION DEVELOPMENT
1:00 pm Chairperson’s Opening
Remarks
Mark Yang, Ph.D., Director, Fill Finish Development,
Commercial Process Development, Genzyme, a
Sanofi Company
1:10 Challenges in Developing Stable
Formulations for Vaccines and Biologics
Indresh K. Srivastava, Ph.D., Vice President, Product
Realization; Protein Sciences Corp.
The development of a stable formulation is critical
for any effective vaccine to prolong its shelf life.
One of the major challenges in developing a stable
formulation is to ensure that the immunogen is kept
in the correct conformation therefore preventing
aggregation, degradation etc. and its impact on
potency of the vaccine. I will discuss approaches
for stabilizing the rHA antigen during the storage.
In addition, I will present a case study on the
development of a stable formulation for a new
biologic.
1:45 Considerations in Formulation
Development of DNA-Based Vaccine
Min Huang, Ph.D., Principal Scientist, Pharmaceutical
R&D, Pfizer, Inc.
There are unique challenges in formulation
development of plasmid DNA based vaccines.
Considerations in formulation, stability, viscosity,
container closure selection, shipping, process
development etc will be discussed. Detailed
case studies will be presented to highlight these
challenges and share knowledge and technologies
that potentially overcome some of these challenges.
2:15 Development of Stable and
Efficacious Adjuvanted Protein Vaccines
Yuhong Zeng, Ph.D., Senior Scientist, Alcon
Laboratories, Inc.
Besides stability, another challenge for vaccine
formulation development is the adsorption of antigens
to adjuvant. The effect of antigen-adjuvant interactions
on the vaccine efficacy still remains controversial. In
this talk, a case study with a smallpox vaccine will
be presentedto address these formulation issues.
A systematic approach employed in the study to
optimize the stability and efficacy of the formulation
will be discussed in details.
DEVELOPING QUALITY IN
BIOPHARMACEUTICALS
»»KEYNOTE PRESENTATIONS:
3:15 Quality by Design Method
Development Using a Platform Approach
for Multiple Commercial Biological
Products
Jianmei Kochling, Ph.D., Director, Quality Science
and Analytical Technology, Genzyme, a Sanofi
Company
Analytical method development process
has evolved along with industry’s significant
understanding of the “Quality by Design” concept”.
Quality by design approach analytical methods
development relies upfront understanding of
targeted method attributes and acceptance
criteria, process and product knowledge, and the
incorporation of the modern technology. In this
presentation, the method development process as
well as case studies will be presented for the QbD
methods development using a platform approach.
3:45: Regulatory Considerations and
Expectations for Assessing Quality
and Stability of Biologics
Speaker to be Announced
4:15 Breakout Discussions
topics available and join the moderated discussion to
share ideas, gain insights, establish collaborations or
commiserate about persistent challenges. At the end
of the session, each moderator will summarize the
topics being discussed, the findings and conclusions
(if any), and share with the audience.
7:00 End of Day
Needham, MA 02494
www.healthtech.com
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2nd
Annual
STREAM 2
Formulation
& Downstream
Processing
TUESDAY, AUGUST 19
Coffee
CHALLENGES IN PROCESS
DEVELOPMENT & FILL FINISH
OPERATIONS
8:00 Strategy for Mitigating Particulate
Risks during Product Manufacturing and
Clinical Administration of a Biologic for
Use in Phase I Clinical Studies
Zhiqing Zhu, Ph.D., Research Investigator, Drug
Product Science and Technology Department, Bristol-
Myers Squibb Co.
Protein particulate formation often presents a
challenge to drug product development process,
especially during manufacturing operations and
clinical compounding and administration. Here,
we present a case study where phase-appropriate
approaches (e.g. scale-down model, syringe/needle
combination selection) were utilized to facilitate
the successful development of a biologic for use in
Phase I studies. Although the molecule had a history
of particulate formation, the approaches adopted
successfully and can be readily applied or adapted to
similar situations.
8:30 Protein Oxidation during
Formulation and Fill Finish Operations
Mark Yang, Ph.D., Director, Fill Finish Development,
Commercial Process Development, Genzyme, a
Sanofi Company
Hydrogen peroxide (HP) is present ubiquitously
in water and excipients, and is generated by
formulation and fill finish processes. Even at sub-
ppm concentration, HP can cause significant protein
oxidation and impact drug product quality. HP spiking
study is often used to evaluate the effect of residual
HP on a given protein formulation. Data from a new
spiking study will be presented.
9:00 Challenges in the Filtration of High-
Concentration Formulations during Fill
Finish Operations
Curtiss P. Schneider, Ph.D., Senior Engineer I, Protein
Pharmaceutical Development, Biogen Idec
Late stage changes in equipment and process
design for fill finish operations can result in filtration
challenges that are often not well understood or
previously observed. In the case study presented
here, an overview is given for a filter fouling event
never before seen during the manufacture of a high-
concentration mAb product. A combination of tank
mixer configuration, contact interfaces, and hold
times will be discussed as implicated root causes for
the observation.
with Poster Viewing
HIGH-THROUGHPUT MEASURES
TO OVERCOME FORMULATION
CHALLENGES
10:30 Aromatic Amino Acid Salts Rescue
the Solubility of a Poorly Soluble
Multivalent Protein
Yu Tang, Ph.D., Principle Scientist, Integrated
Biologics Profiling, Novartis Institute of Biomedical
Research
A multivalent protein demonstrates poorly solubility
across wide pH range with temperature dependency.
Conventional “salt in” ions further facilitate the
precipitation of the protein. Interestingly, aromatic
amino acid salts successfully rescue the protein
solubility. A systemic investigation was performed
to reveal the cause of the poor solubility and the
mechanism of solubility enhancement by aromatic
amino acid salts.
11:00 High-Throughput Study Designs
to Evaluate and Overcome Protein
Instabilities
Samidha Konkar, Ph.D., Senior Research Scientist,
Formulation Development, Janssen
11:30 Automated, Sponsored by
High-Throughput
Approaches to Protein
Formulation
Paul DiGregorio, Ph.D., Director, Strategic Accounts, Freeslate,
Inc.
Case studies that examine the utilization of
automated, high-throughput systems with integrated
analytics to assess protein formulations.
1:15 Session Break
RAPID SCREENING IN EARLY
BIOTHERAPEUTIC DEVELOPMENT
2:00 Alternative Methods for
QuantifyingTemperature- and
Formulation-Dependent Aggregation
Rates
Christopher J. Roberts, Associate Professor,
Department of Chemical & Biomolecular Engineering,
University of Delaware
Reliably predicting protein aggregation rates
from accelerated storage conditions remains an
outstanding challenge for formulation scientists.
Issues that need to be overcome include: sufficiently
accurate means to quantify how rates change with
storage condition and non-linear effects that make
extrapolations difficult to perform accurately. This talk
presents illustrative methods to improve predictions
of aggregation rates, with monoclonal antibodies as
case studies, and also highlights remaining challenges
for future efforts.
Needham, MA 02494
www.healthtech.com
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2nd
Annual
STREAM 2
Formulation
& Downstream
Processing
2:30The Measurement of KD at Low
Concentration and Its Application
as a High-Throughput Screening
Technique for Protein-Protein Interaction
Measurements
Anthony L. Young, Ph.D., Principal Scientist,
Pharmaceutical Research and Development, Pfizer,
Inc.
The light scattering measurement is routinely run in
a high-throughput format to quickly determine the
necessary diffusion coefficient versus concentration
curves. The use of a robotic liquid handler can reduce
the preparation time of the dilution sequence.
This talk will cover the use of the liquid handler
in combination with the dynamic light scattering
instrument to generate KD values that are used
to screen proteins and protein formulations for
development. The data from several different protein
isoforms will be discussed to illustrate the screening
process and show typical data.
3:00 Increasing theThroughput of
Protein Formulation Screening Using
96-Well Plate Format
Qingyan Hu, Scientist, Ph.D., Scientist, Formulation
Development, Regeneron, Inc.
To increase throughput during formulation screening,
the use of a 96-well plate format was explored for
candidate selection and formulation development.
Multiple mAb candidates were screened against
different buffer/pH and excipients using the 96-
well plate format. In addition, the stability study
results obtained using the 96-well plate format was
compared to the results from using glass vials. With
the incorporations of an automated liquid handling
system and analytical instruments compatible
with 96-well plates, this approach would greatly
increase the throughput of formulation screening
and development.
4:15 Application of DSF as a
High-ThroughputTool in Protein
Characterization and Formulation
Development
Shuai "Sunny" Shi, Ph.D., Senior Scientist, Sterile
Product Development, Merck
In this study, we benchmarked DSF against the
conventional thermal technique, differential scanning
calorimetry (DSC), and more importantly made
an attempt to predict protein thermal aggregation
kinetics by DSF. We have defined three levels of
correlations between DSF/DSC transition temperature
and real-time thermal aggregation kinetics which
will be shown in 3 individual case studies. We will
also demonstrate the unique application of DSF in
studying concentration-dependent thermal behaviors
especially in the high-concentration range.
4:45 Using High-Throughput Screening
Methods to Screen Excipients during
Formulation Development
Jamie Biddlecombe, Scientist II, Formulation
Sciences, MedImmune UK
Various high-throughput screening tools are available
for screening excipients as part of formulation
development for antibodies and novel protein
therapeutics. These inform selection of excipient
and buffer conditions by characterisation of the
aggregation propensity, colloidal, conformational
and protein-protein interaction parameters of the
drug in these conditions. These techniques will be
reviewed and case studies presented demonstrating
the successes and challenges of correlating these
parameters with real time stability.
5:15-6:00 Dinner Short Course
Registration
6:00-8:30 Dinner Short Course*:
Accelerated StabilityTesting of
Biologics
Needham, MA 02494
www.healthtech.com
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3rd
Annual
High-Concentration Protein Formulations
Overcoming Challenges in HighViscosity, Aggregation and Stability
STREAM 2
Formulation
& Downstream
Processing
Bioprocess Development:
Biologics
Thursday, August 21, 6:30 - 9:00 pm
Coffee
PROTEIN ASSOCIATION AND
AGGREGATION
»»KEYNOTE PRESENTATIONS
8:15 Mechanisms of Protein
Association and Aggregation
Thomas Laue, Ph.D., Professor, Biochemistry
and Molecular Biology; Director, Biomolecular
Interaction Technologies Center (BITC), University
of New Hampshire
The same forces underlie protein stability, protein-
protein interactions and protein aggregation. In
addition to viewing the thermodynamics of these
processes, it is worthwhile to consider their kinetic
aspects. A kinetic view of these processes is
particularly revealing with respect to hydrophobic
interactions. Considering hydrophobic interactions
as a two-step process that first involves de-
solvation, then dispersion-energy stabilization
leads to the conclusion that flanking hydrophobic
regions with anionic groups should reduce
hydrophobically-driven aggregation.
9:00 Liquid-Liquid Phase Separation
as a Quantitative Colloidal Stability
Assay for Monoclonal Antibodies
Ramil F. Latypov, Ph.D., Principal Scientist, Process
& Product Development, Amgen, Inc.
Colloidal stability is an important consideration in
formulation development of therapeutic antibodies.
In a protein solution, different pathways including
crystallization, aggregation and liquid-liquid phase
separation (LLPS) can lead to the formation of
precipitates and particles. Polyethylene glycol
(PEG) induces LLPS in antibody solutions and can
be used to compare colloidal stability of antibodies
in different conditions. Our analysis defines the
binding energy in the PEG-induced condensed
phase to quantitatively measure attractive
interactions between antibody molecules.
9:30 Structural and Surface
Characteristics of a Protein that Impact
its Opalescence in Solution
Ravi Chari, Ph.D., Senior Scientist, Pharmaceutics,
AbbVie Bioresearch Center
In this study we investigated the underlying
properties of a protein that led to its opalescence
in solution. Initial formulation studies led to the
hypothesis that hydrophobic interactions governed
this behavior. Computer modeling was then
performed to identify hydrophobic residues and
surfaces of the protein that could be targeted for
mutational studies to test the hypothesis. The results
suggest that the degree and nature of hydrophobicity
impacted opalescence.
with PosterViewing
10:45 Monoclonal Antibody Self-
Association, Rheology, and Phase
Behavior at High Concentrations
Wenhua Wang, Ph.D., Postdoctoral Fellow, Late Stage
Pharmaceutical Development, Genentech, Inc.
Therapeutic protein intermolecular interactions at high
concentrations often lead to manufacturing problems
including high viscosity, turbidity, and aggregation.
Here, we presented our work on the correlation of
monoclonal antibody (mAb) self-associating dimer
and oligomer structural information to their rheology
and phase behaviors. A better understanding of
mAb self-association behaviors from this research
is insightful not only for overcoming challenges in
high-concentration protein formulations, but also for
comprehending the mechanisms of protein gelation
or crystal formation.
11:15 Phase-AppropriateApproaches for
High-Concentration Protein Formulation
Development and Manufacturing
Guangliang Greg Pan, Ph.D., Principal Research
Scientist, Biopharmaceutical Research and
Development, Eli Lilly and Company
11:45 Sponsored Presentations
12:15 pm Luncheon Presentation
1:30 Session Break
OVERCOMING AGGREGATION
& VISCOSITY CHALLENGES
2:00 Multimer Protein Cluster Structure at
High-Concentration: Dynamic Modeling
of Stability andViscosity
John Tsavalas, Ph.D., Assistant Professor of Materials
Science, University of New Hampshire
In this work, a dynamic model is presented that
can evaluate and predict this behavior of proteins in
concentrated solutions as a function of their charge,
charge distribution, and resultant interaction potential.
In particular, the viscosity response to the stability of
the proteins in solution is discussed with emphasis
on the effective hydrodynamic radius due to the high
aspect ratio of a mAb exacerbated by weak clustering
of multiple mAbs during concentration.
2:30 Understanding and Addressing
Viscosity in the Development of High-
Concentration Protein Formulations
Robert H. Walters, Senior Scientist, Biotherapeutics
Pharmaceutical R&D, Pfizer, Inc.
High-concentration formulations of therapeutic
proteins are beneficial as they reduce storage costs
Needham, MA 02494
www.healthtech.com
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3rd
Annual
STREAM 2
Formulation
& Downstream
Processing
of biotherapeutics and can enable more patient
friendly administration options, such as subcutaneous
dosing. However, development of high-concentration
formulations remains challenging. High viscosities
associated with high-concentration protein
formulations can negatively impact manufacturability
and injectability of the product. This talk will focus on
understanding the sources of elevated viscosity in
high-concentration protein formulations and suggest
strategies for viscosity reduction.
3:00 Instrument Biases for Counting and
Sizing of Particles in High-Concentration
Formulations
Dean Ripple, Ph.D., Leader, Bioprocess
Measurements Group, National Institute of Standards
and Technology
Characterization and sizing of protein particles is
necessary for assuring the quality of drug products.
High-concentration formulations lead to reduced optical
contrast of particles, leading to errors for the most
common optical methods of particle detection.This talk
discusses biases between methods in common use,
as identified by the NIST round robin comparison on
subvisible particles, and then considers the impact of
either high protein or high excipient concentrations on
these biases.
3:30 Refreshment Break in the Exhibit Hall
with PosterViewing
EMERGING BIOPHYSICAL
TECHNIQUES FOR HIGH-
CONCENTRATION FORMULATIONS
4:15 Evaluating Predictive Biophysical
Techniques to Support the Development of
High-Concentration ProteinTherapeutics
Mark L. Brader, Ph.D., Principal Scientist, Protein
Pharmaceutical Development, Biogen Idec
Protein properties that affect pharmaceutical stability,
manufacturability, dosage and administration take on
an even greater significance at high concentration.
This places more emphasis on designing, screening
and optimizing molecules and formulations early
in development. High-throughput instrumentation
enables large datasets to be obtained more readily.
However, improved data analysis, interpretation, and a
more sophisticated understanding of mechanisms of
excipient stabilization are needed. Recent insights from
isothermal, thermal-ramp, and chemical denaturation
screening methodologies will be presented.
4:45 OrthogonalToolbox for Screening
and Identification of High-Concentration
mAb Formulations
Yunsong “Frank” Li, Ph.D., Associate Principal
Scientist, Bioprocess Development, Merck Research
Laboratories
In this study, we focused on the evaluation of several
techniques for understanding of high-concentration
mAb solution properties. We observed good
correlations between turbidity, relative solubility
and the second viral coefficient (B22) value which
are indicative of protein colloidal stability. We have
demonstrated the ability of DSF to test high-
concentration protein formulations and comparison
between classical formulation stability studies and
new toolbox will also be presented for 150 mg/mL
mAb formulations.
6:30 End of Day
THURSDAY, AUGUST 21
Coffee
DEVELOPMENT & MANUFACTURING
OF HIGH CONCENTRATION
FORMULATIONS
8:30 Challenges in Developing High-
Concentration Liquid Formulations for
Novel Biologics Formats: Fusion Protein,
Bi-Specifics
Kapil Gupta, Ph.D., Senior Fellow, Integrated Biologics
Profiling, Novartis Institute of Biomedical Research
In recent years, the biologics pipeline in many
organizations is maturing from simple monoclonal
antibodies to more complex molecular formats such as
Fc-fusion, bi-specifics and multifunctional molecules.
These new formats demonstrate superior biological
characteristics but bring significant challenges in
high-concentration liquid formulation development due
to unfavorable physical-chemical properties.This talk
will provide an overview of challenges encountered
in formulation developability assessment of novel
biologics formats.
9:00 Manufacturing High-Concentration
Monoclonal Antibody (mAb)
Formulations via Spray Drying
Technology
Yuh-Fun Maa, Ph.D., Principal Engineer,
Pharmaceutical Processing & Technology
Development, Genentech, Inc.
This study evaluated a pilot-scale spray dryer against
a laboratory-scale dryer to spray dry multiple mAbs
in consideration of scale-up, process optimization,
impact on mAb stability, and feasibility of a high-
concentration preparation. The outcome of the
study demonstrated mAb chemical/potency stability,
performance comparability of the scaled-up process,
and the ability of concentrating mAb to >300
mg/mL This study offers a commercially viable
spray-drying process for high-concentration mAb
manufacturing option.
Needham, MA 02494
www.healthtech.com
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3rd
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STREAM 2
Formulation
& Downstream
Processing
9:30 Challenges in Developing High-
Concentration Stable Formulation for
Biologics
Indresh K. Srivastava, Ph.D., Vice President, Product Realization,
Protein Sciences Corp.
The development of a stable formulation is critical
for any effective vaccine or biologics to prolong its
shelf life, maintain its functionality, and efficacy.
Most of the biologics are needed at a very high
concentration for clinical and logistical reasons.
One of the major challenges in developing a stable
formulation for biologics at high conc. is how to
prevent the protein from aggregation/precipitation
therefore loosing its potency and clinical efficacy. I
will present a case study on the development of a
high-concentration formulation.
with PosterViewing
ADMINISTRATION CHALLENGES OF
HIGH-CONCENTRATION FORMULATION
10:45 Overcoming the Need for
High Protein Concentrations for
Subcutaneous Drug Delivery Using a
Novel Excipient
David Gold, Ph.D., Associate Director, Business
Development, HalozymeTherapeutics
Traditional subcutaneous drug delivery for biologics
can require highly concentrated formulations in order
to minimize the volume administered. Addition of a
novel recombinant hyaluronidase excipient (rHuPH20)
to the formulation can allow for larger volumes to be
delivered. This excipient opens up channels within
the subcutaneous space by depolymerizing its target
substrate, hyaluronan. Further, the molecule has
been shown to be compatible with a wide range of
biologics, including antibodies, peptides and other
therapeutic proteins.
11:15 Alternative Methods of
Formulating High-Concentration
Proteins to Overcome Administration
Challenges
Jan Jezek, Ph.D., CSO, Development, Arecor Ltd.
With increasing competition in the biopharmaceutical
market there is a strong trend toward improving
convenience of administration. A switch from
intravenous infusion to a convenient subcutaneous
injection often requires an increase in protein
concentration, leading to stability and injectability
issues. The talk will describe innovative approaches,
to processing and formulating concentrated protein
compositions to enable development of commercially
viable products. The novel approaches also have a
benefit of additional IP protection of the resulting
products.
11:45 Challenges in Reconstitution
of High-Concentration Protein
Formulations
Pooja Sane, Doctoral Candidate, Department of
Pharmaceutical Sciences, School of Pharmacy,
University of Connecticut
Co-Developed by: Robin Bogner, Ph.D., Associate
Professor, Department of Pharmaceutical Sciences,
School of Pharmacy, University of Connecticut
Lyophilized highly concentrated protein formulations
are notorious for their long reconstitution times
posing problem for administration to patients.
Several strategies have been reported to reduce the
reconstitution times. A review of those strategies
and our analysis of the wetting behavior, hydration
and disintegration rates to identify potential causes of
long reconstitution times will be presented.
12:15 pm Sponsored Presentation
Needham, MA 02494
www.healthtech.com
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Inaugural
Advances in PurificationTechnologies
AdvancedTechnologies & Novel Concepts in Protein Purification & Recovery
STREAM 2
Formulation
& Downstream
Processing
ABC: Anything But Chromatography
– Precipitation, Crystallization and
Flocculation
Thursday, August 21, 6:30 – 9:00 pm
THURSDAY, AUGUST 21
Greg Zarbis-Papastoitsis, Ph.D., Vice President,
Process and Manufacturing Sciences, Eleven
Biotherapeutics
Cold Ethanol Precipitation and
Flocculation for Continuous Downstream
Processing of Recombinant Antibodies
Alois Jungbaer, Ph.D., Professor, Department of
Life Science Vienna, (BOKU) and Austrian Centre of
Industrial Biotechnology
We have developed a completely new, non-
chromatographic alternative based on a series of
selective precipitation and flocculation steps. Our
process does not need elution chromatography
anymore. The method is a generic platform
technology and has been tested in the purification
of several human antibodies with different pI
and hydrophobicity. The full potential of this
new continuous downstream technology can be
harnessed by coupling to a continuous upstream
process/perfusion reactor. Examples for fully
continuous operating reactors will be shown.
NEW APPROACHES AND
TECHNOLOGIES IN PURIFICATION
CHROMATOGRAPHY
2:45 Dramatic Improvements in Process
Economy with Non-Column Purification
Richard Nian, Ph.D., Research Scientist, Downstream
Processing Group, BioprocessTechnology Institute,
A*Star, Singapore
In this study, we show data from new clarification
methods that enable a number of non-protein A
capture alternatives, including non-column formats.
We also show data from a breakthrough convection-
based system that supports 10-fold lower host protein,
aggregate and DNA content, plus 10-20% higher IgG
recovery compared to 3-step protein A platforms. And
it achieves these results with two thirds less water
than current protein A platforms.
3:15 A Designed Calcium-Responsive Peptide
Domain for Non-Chromatographic Protein
Purification
Scott Banta, Ph.D., Associate Professor, Chemical
Engineering, Columbia University
We have discovered a peptide sequence based on
the beta-roll forming RTX domain that reversibly
precipitates in the presence of calcium. We have
developed this phase-change as a simple method for
the non-chromatographic purification of recombinant
proteins. We have demonstrated this technique with
several model proteins, and the technique should be
broadly applicable.
3:45 Sponsored Presentation (Opportunity
Available)
with PosterViewing
topics being discussed, the findings and conclusions (if
any), and share with the audience.
5:45 End of Day
5:45 – 6:30 Dinner Short Course
Registration
ABC: Anything But Chromatography
– Precipitation, Crystallization and
Flocculation
FRIDAY, AUGUST 22
8:00 am Registration and Morning Coffee
NEW APPROACHES AND
TECHNOLOGIES IN PURIFICATION
CHROMATOGRAPHY (cont.)
Alois Jungbaer, Ph.D., Professor, Department of
Life Science Vienna, (BOKU) and Austrian Centre of
Industrial Biotechnology
8:30 Design and Optimization of
CountercurrentTangential Chromatography
for Monoclonal Antibody Purification
Andrew Zydney, Ph.D., Professor and Department
Head, Chemical Engineering,The Pennsylvania State
University
CountercurrentTangential Chromatography (CTC) is
a new column-free capture technology that enables
fully disposable operation. Binding, washing, elution,
stripping, and equilibration steps are conducted on a
moving slurry pumped continuously through a cascade
of static mixers and hollow fiber membrane modules.
This talk will describe the analysis used to develop
and optimize a CTC system for monoclonal antibody
purification that provides comparable antibody yield
and host cell protein removal with nearly 10-fold
greater productivity than conventional packed columns.
9:00 Bench-Scale Development of a Multi-
Column Continuous Protein A Affinity
Process For mAb Biomanufacture
Anthony Grabski, Ph.D., Director, R&D, Semba
Biosciences, Inc.
We tested multi-column continuous chromatography
(MCC) protocols for Protein A affinity purification of
monoclonal antibodies (mAbs). We will present results
comparing various protocols and adsorbents for their
productivity and efficacy in an 8-column MCC process.
The relationship between mAb titer and productivity
with MCC vs. the traditional batch process will be
experimentally demonstrated.
9:30The Use of Multi-Modal Chromatography
for the Removal of Aggregates and Protein
Impurities
Shuang Chen, Ph.D., Senior Scientist, Pfizer, Inc.Cambridge Healthtech Institute,
Needham, MA 02494
www.healthtech.com
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Inaugural
Advances in PurificationTechnologies
AdvancedTechnologies & Novel Concepts in Protein Purification & Recovery
STREAM 2
Formulation
& Downstream
Processing
10:00 Mid-Morning Snack in the Exhibit Hall
with PosterViewing
10:45 A Non Protein-A Capture Step for mAbs
Based on Selective Precipitation Combined
with CEX
Danielle van Wijk, Ph.D., Project Leader, Downstream
Processing, Synthon Biopharmaceuticals
A low cost and non toxic precipitation agent was used
combined with a novel cationic (CEX) resin as the initial
purification step. Several CEX resins were evaluated
for binding capacity, selectivity and cleanability.The
selected CEX resin has a significant increased capacity
over protein A and data indicate a combined use of
selective precipitation and CEX are promising for future
“high” titer antibody purification processes.
11:15 FastTrack Process Development
andValidation: Chromatographic High-
Throughput Characterization - IsThis the
Solution for Process Development?
Matteo Costioli, Ph.D., DSP Process Development
Manager, BioProcess Science, Merck Serono
To rapidly develop a safe, well controlled, efficient and
cost effective process, the use of HTS combined with
design of experiment, is key. A case study for a MAb of
a fast track process development approach for a CEX
step is discussed. A proposed characterization using
micro- column in combination with a robotic liquid
handling system and the ensuing scale-up to lab-scale
is described. Implementation of a HTS in the new 3
stage process validation framework is also discussed.
11:45 Hydrophobic Interaction
Chromatography Optimization Using
Definitive Screening DesignVersus
Traditional Experimental Designs
LilyTsang, MSE, Associate Scientist II, Biologics
Process Development Downstream, Global
Manufacturing and Supply, Bristol-Myers Squibb
The optimization of hydrophobic interaction
chromatography (HIC) can consume a considerable
amount of material and time using traditional
experimental designs. Definitive screening design
(DSD) uses fewer experiments to identify significant
factors to provide resolution between main effects,
two-way interactions and quadratic effects. We
optimized ten HIC parameters for protein recovery
and aggregate clearance using high-throughput
chromatography. Results show the robustness of DSD
and important findings were confirmed.
12:45 Luncheon Presentation (Sponsorship
Opportunity Available)
TECHNIQUES AND STRATEGIESTO
OVERCOME PURIFICATION AND
CLARIFICATION CHALLENGES
SophiaT. Mundle, Ph.D., Senior Manager, Protein
Chemistry, Sanofi Pasteur
1:30Viral Clearance Challenges in mAb
Development
Joe Zhou, Ph.D., CEO, Genor Biopharma, Walvax Bio
Group and Visiting Professor, Peking University
2:00 Clarification and PurificationTechniques
for High Density Mammalian Cell Cultures
and Bacterial Fermentation
Kathryn Golden, MEng., Scientist II/Development
Project Manager, Manufacturing and Process Sciences,
Eleven Biotherapeutics
State-of-the-art upstream processes continue to
push industry limits with increasingly concentrated
cell densities and productivities in both mammalian
cell culture and bacterial fermentation. Associated
improvements in clarification and purification
techniques are being designed to handle these
challenging process streams.Two case studies of the
development of high density upstream, clarification,
and purification processes will be discussed.
2:30 Purification of the Sanofi Pasteur HSV2
Vaccine Candidate, HSV529
SophiaT. Mundle, Ph.D., Senior Manager, Protein
Chemistry, Sanofi Pasteur
The Sanofi Pasteur replication defective HSV2 vaccine
candidate, HSV529, can be purified by a method which
includes a combination of harvesting without cell
disruption, endonuclease treatment, depth filtration,
anion-exchange chromatography and ultrafiltration/
diafiltration (UF/DF).The resultant virus retains
infectivity and is ∼ 200-fold more pure with respect
to host cell DNA and proteins than is HSV529 purified
by ultracentrifugation. Side-by-side comparison of
chromatography-purified ACAM529 with sucrose
cushion-purified HSV529 shows that both preparations
are equally immunogenic and protective when tested
in vivo.
3:15 High-Throughput Ion Exchange
Purification of Positively Charged
Recombinant Protein in the Presence of
Negatively Charged Dextran Sulfate
Lam Markely, Scientist II, Cell Culture Development –
High-Throughput Analytical Group, Biogen Idec
We developed an SSP (small scale protein purification)
using ion exchange resins to purify positively charged
recombinant growth factor P1 in the presence of
negatively charged dextran sulfate.The major challenge
in this work is that strong ionic interaction between P1
and dextran sulfate disrupts interaction between P1
and chromatography resins.To solve this problem, we
develop a two-step SSP using Q Sepharose Fast Flow
(QFF) and SP Sepharose XL (SPXL) resins to purify P1.
3:45 Protein Glycosylation Selectivity in
Chromatographic Separation
Alan Shupe, Ph.D., Scientist I, Biologics Manufacturing
and Process Development, Bristol-Myers Squibb
Variation in glycan components such as sialic
acid exhibit different local charge density and
hydrophobicity, and affect the purification performance.
In this study we examine the separation behaviors of
monomeric and high-molecular weight glycoforms in
both ion-exchange (IEX) and hydrophobic interaction
(HIC) chromatography.The interplay between IEX and
HIC profiles becomes self-evident when analyzing all
types of glycoforms together.This study illustrates
some general aspects about how glycosylation
heterogeneity can impact product quality and
process yield.
4:15 Next-Generation Purification Processing:
A Comparison of Novel Approaches for
Integrated and High-Throughput Processing
Finn Hung, Ph.D., Senior Scientist, Merck & Co.
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2nd
Annual
Rapid Methods to Assess Quality
& Stability of Biologics
Improving Prediction and Screening
STREAM 3
Analytical
Development
& Quality
Accelerated StabilityTesting of Biologics
MONDAY, AUGUST 18
and Morning Coffee
9:00 – 11:30 Short Course*:
QbD Strategies for Formulation
RAPID METHODS
FOR COMMERCIAL QUALITY
CONTROL LABS
Remarks
Jianmei Kochling, Ph.D., Director, Quality Science and
Analytical Technology, Genzyme, a Sanofi Company
1:10 Rapid AnalyticalTechniques
for the Commercial Quality Control
Laboratories in Preparation for
Regulatory Filings
Paul Bigwarfe, Jr., Ph.D., Director, Analytical Sciences,
Industrial Operations and Product Supply, Regeneron
Pharmaceuticals, Inc.
Many new technologies are becoming amenable
to the commercial QC laboratory, and their
implementation requires special consideration. Using
the example of new molecular sizing methods (UPLC
and capillary CE based), analytical transfer, validation,
method bridging, and specification setting issues
will be discussed. In addition, examples of how to
introduce assay controls and write procedures for use
in a GMP commercial lab will be provided.
1:45 Introduction of PAT Sponsored by
to Improve the
Efficiency and Robustness
of Biopharmaceutical Manufacturing
Aleš Štrancar, Ph.D., CEO, BIA Separations GmbH
During the development of up- or down-stream process of
biomolecules, it is essential to have fast, accurate and reliable
analytical methods. Examples of PAT in biopharmaceutical
manufacturing by using specially designed monolithic HPLC
columns, supplied by Agilent or by BIA Separations, to provide
rapid, actionable information about the quantity and purity
of target molecules in different feed stream samples, will be
presented.
2:15 High-Throughput Method
Development for Product Stability and
Impurity Evaluation
Zhenyu Gu, Ph.D., Development Scientist II, Analytical
Sciences, Alexion Pharmaceuticals, Inc.
High-throughput analytical methods were developed
to evaluate product related impurity, stability
and process related impurity. In addition to high-
throughput, the new methods demonstrated less
assay induced artifacts than the traditional methods.
Protein degradation products were characterized by
the new method in a much reliable way. Levels of
several process-related impurities were determined
simultaneously by the new methods because of
the good resolution. Previously, each impurity had
to be analyzed individually by the corresponding
traditional method.
DEVELOPING QUALITY IN
BIOPHARMACEUTICALS
3:15 Quality by Design Method
Development Using a Platform Approach
for Multiple Commercial Biological
Products
Jianmei Kochling, Ph.D., Director, Quality Science
and Analytical Technology, Genzyme, a Sanofi
Company
Analytical method development process
has evolved along with industry’s significant
understanding of the “Quality by Design” concept”.
Quality by design approach analytical methods
development relies upfront understanding of
targeted method attributes and acceptance
criteria, process and product knowledge, and the
incorporation of the modern technology. In this
presentation, the method development process as
well as case studies will be presented for the QbD
methods development using a platform approach.
3:45 Regulatory Considerations and
Expectations for Assessing Quality and
Stability of Biologics
Speaker to be Announced
7:00 End of Day
Needham, MA 02494
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2nd
Annual
STREAM 3
Analytical
Development
& Quality
TUESDAY, AUGUST 19
Coffee
RAPID ASSESSMENT OF
PARTICLES, AGGREGATION
& STABILITY
8:00 Methods for Rapid Assessment of
Aggregation and Particle Formation
Dean Ripple, Ph.D., Leader, Bioprocess
Measurements Group, National Institute of Standards
and Technology
Rapid assessment of the formation of particles
in drug candidates requires the use of analytical
methods that are suited to high throughput. Four
main types of methods are considered: static
and dynamic light scattering, static and dynamic
microscopic imaging, temperature scanning methods
with either calorimetric or fluorescent detection, and
prospects for new, novel methods. For each method,
I discuss the applicable size range, the sensitivity, and
various advantages and disadvantages.
8:30 Emerging Methods for Measuring
Sub Visible Particles
Nanda Subbarao, Ph.D., Senior Consultant, Analytical
CMC, Biologics Consulting Group
The tools available for analysis of sub-visible
particles in well-characterized protein products have
increased over the past years in response to gradually
increasing regulatory expectations to test for them.
These emerging methods are based on different
technologies. Therefore use of these methods
together will provide a more complete description of
the sub-visible particles, however the results cannot
always be compared directly because they evaluate
different features of the particles. The advantages
and disadvantages of the different methods will
be discussed.
9:00 Evaluation of the Stability of Low
Concentration Maytansinoid ADCs in
Infusion Bags and their Compatibilities
with Administration Sets
Joyce Lin, Senior Research Associate, Analytical and
Pharmaceutical Sciences, ImmunoGen, Inc.
Maytansinoid ADCs (AMCs) are used for the
treatment of cancer. The AMC drug products are
placed into infusion bags that contain appropriate
diluent and administered intravenously. The stability
of the AMCs and their compatibilities with the
administration sets need to be evaluated before the
start of the clinical trials. The human starting dose
levels are relatively low and pose challenges during
the assessment of compatibility of the diluted AMCs
with infusion sets.
with Poster Viewing
10:30 Using Synchrotron Radiation
Circular Dichroism as an Alternative
Photo-Accelerated Method on Stability
of Antibodies Formulation
Rohanah Hussain, Ph.D., Senior Scientist, Diamond
Light Source. Ltd.
The optimization of the biotherapeutic formulation is
essential to maintain their activity and the possibility
of a rapid screening is critical to achieve this goal. A
novel method for accelerated photostability studies
using Synchrotron Radiation CD at Beamline B23
(Diamond Light Source, UK) is employed using
model peptides and antibodies and would provide
a significant addition to the existing methods for
photostability which are regulated by the ICH.
11:00 Recent Advances in Monitoring
Protein Aggregation Kinetics and
Mechanisms with Simultaneous
Multiple Sample Light Scattering
(SMSLS)
Wayne F. Reed, Ph.D., Murchison Mallory Chair
Professor of Physics, Department of Physics, Tulane
University
SMSLS measured real-time aggregation kinetics of
several proteins under thermal and stir stressors up
to concentrations >0.100g/cm3. Arrhenius behavior
is found for thermal data, but there is no relationship
between aggregation rates, which vary by >106, and
Tm and unfolding activation energy. Rates under stir
are surprisingly similar. Stirring effects of enhanced
air/liquid interface exposure vs. mechanical shear
were separated.Thermal and stirring aggregation
mechanisms are different.The appearance of
particulates during aggregation was monitored.
11:30 Poly-Specificity as an Early Metric
for Antibody Developability
Eric Krauland, Ph.D., Senior Director, Antibody
Discovery and Optimization, Adimab LLC
The developability of antibody therapeutics is a
historically overlooked aspect in the early discovery
process. To this end, we demonstrate that a simple
flow cytometry-based poly-specificity assay predicts
poor CMC properties by correlation to validated
characterization techniques. But unlike these
assays, the flow cytometry poly-specificity assay
is also compatible with active selection from large
and diverse antibody mixtures. Selecting for CMC
properties and target biology in the earliest discovery
stages aims to improve the efficiency of the overall
development process.
1:15 Session Break
HIGH-THROUGHPUT SCREENING
IN EARLY DEVELOPMENT
2:00 Alternative Methods for
QuantifyingTemperature- and
Formulation-Dependent Aggregation
Rates
Christopher J. Roberts, Associate Professor,
Department of Chemical & Biomolecular Engineering,
University of Delaware
Reliably predicting protein aggregation rates
from accelerated storage conditions remains an
outstanding challenge for formulation scientists.
Issues that need to be overcome include: sufficiently
accurate means to quantify how rates change with
Needham, MA 02494
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2nd
Annual
STREAM 3
Analytical
Development
& Quality
storage condition and non-linear effects that make
extrapolations difficult to perform accurately. This talk
presents illustrative methods to improve predictions
of aggregation rates, with monoclonal antibodies as
case studies, and also highlights remaining challenges
for future efforts.
2:30The Measurement of KD at Low
Concentration and Its Application
as a High-Throughput Screening
Technique for Protein-Protein Interaction
Measurements
Anthony L. Young, Ph.D., Principal Scientist,
Pharmaceutical Research and Development, Pfizer
The light scattering measurement is routinely run in
a high-throughput format to quickly determine the
necessary diffusion coefficient versus concentration
curves. The use of a robotic liquid handler can reduce
the preparation time of the dilution sequence.
This talk will cover the use of the liquid handler
in combination with the dynamic light scattering
instrument to generate KD values that are used
to screen proteins and protein formulations for
development. The data from several different protein
isoforms will be discussed to illustrate the screening
process and show typical data.
3:00 Increasing theThroughput of
Protein Formulation Screening Using
96-Well Plate Format
Qingyan Hu, Scientist, Ph.D., Scientist, Formulation
Development, Regeneron, Inc.
To increase throughput during formulation screening,
the use of a 96-well plate format was explored for
candidate selection and formulation development.
Multiple mAb candidates were screened against
different buffer/pH and excipients using the 96-
well plate format. In addition, the stability study
results obtained using the 96-well plate format was
compared to the results from using glass vials. With
the incorporations of an automated liquid handling
system and analytical instruments compatible
with 96-well plates, this approach would greatly
increase the throughput of formulation screening
and development.
4:15 Application of DSF as a
High-ThroughputTool in Protein
Characterization and Formulation
Development
Shuai "Sunny" Shi, Ph.D., Senior Scientist, Sterile
Product Development, Merck
In this study, we benchmarked DSF against the
conventional thermal technique, differential scanning
calorimetry (DSC), and more importantly made
an attempt to predict protein thermal aggregation
kinetics by DSF. We have defined three levels of
correlations between DSF/DSC transition temperature
and real-time thermal aggregation kinetics which
will be shown in 3 individual case studies. We will
also demonstrate the unique application of DSF in
studying concentration-dependent thermal behaviors
especially in the high-concentration range.
4:45 Using High-Throughput Screening
Methods to Screen Excipients during
Formulation Development
Jamie Biddlecombe, Scientist II, Formulation
Sciences, MedImmune UK
Various high-throughput screening tools are available
for screening excipients as part of formulation
development for antibodies and novel protein
therapeutics. These inform selection of excipient
and buffer conditions by characterisation of the
aggregation propensity, colloidal, conformational
and protein-protein interaction parameters of the
drug in these conditions. These techniques will be
reviewed and case studies presented demonstrating
the successes and challenges of correlating these
parameters with real time stability.
Registration
Accelerated StabilityTesting of
Biologics
*Separate registration required; see page 3 for
details
Needham, MA 02494
www.healthtech.com
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Inaugural
for Biotherapeutics
Optimizing the Selection and Performance of Preclinical Analytical Studies
STREAM 3
Analytical
Development
& Quality
Analytical Strategies for Comparability
in Bioprocess Development
Tuesday, August 19, 6:00 – 8:30 pm
Coffee
BUILDINGTHE EARLY
ANALYTICAL STRATEGY
Vidyashankara Iyer, Ph.D., Scientist, Formulation
Sciences, MedImmune
Building a Robust Early Stage Analytical
Characterization Process at the Discovery
Research Stage
Laura Lin, Ph.D., Director, Biophysics, Analytics, &
Bioconjugation, Biotherapeutics R&D, Pfizer
9:00 Application of a Simple and Fast
Platform Method for DTPA in the
Investigation of Co-Concentration of
DTPA Due to the Donnan Effect during
Processing of aTherapeutic mAb
Jason Huang, Ph.D., Senior Research Investigator,
Analytical and Bioanalytical Development, Bristol-
Myers Squibb
The chelating agent diethylene triamine pentaacetic
acid (DTPA) is used in biologics formulations to
prevent oxidation induced by metal ions and therefore
improve protein stability. This presentation shows
how a simple and fast platform method was applied
for in-process monitoring of DTPA during biologics
formulation development. The data obtained by
this method demonstrated that there was a co-
concentration of DTPA due to the Donnan effect
during tangential flow filtration of a therapeutic
mAb formulation.
9:30 Applying Inputs from Research
Stage Studies and Developability
Evaluations to the Early Analytical
Strategy
Matthew Myers, Associate Scientist, Sterile Products
Analytical Development, Merck
with PosterViewing
10:45 Development of an Early
Analytical Strategy for a Novel
Biotherapeutic
Patricia Lowden, Scientist, Protein Production and
Analytics Department, Eleven Biotherapeutics
EBI-005 is a novel cytokine receptor antagonist
for IL-1R and is currently in phase III development
for dry eye disease. EBI-005 was characterized
biochemically and biophysically at the earliest
stages of development. Methods of characterization
included CIEX- HPLC, RP-HPLC, SEC, SDS-PAGE,
peptide mapping, DSF, CD and SIC. Extensive early
characterization work has facilitated both purification
process development, and formulation development.
The extensive characterization has also led to
constructive dialogue with regulators through the
development stages.
11:15 Developability Evaluation for Novel
Molecule Formats
Vidyashankara Iyer, Ph.D., Scientist, Formulation
Sciences, MedImmune
1:30 Session Break
HIGH-THROUGHPUT ANALYSIS
IN EARLY DEVELOPMENT
Jason Huang, Ph.D., Senior Research Investigator,
Analytical and Bioanalytical Development, Bristol-
Myers Squibb
2:00 High-Throughput Heterogeneity
Analysis of Antibodies and Antibody-
Like Molecules
Melissa Geddie, Ph.D., Senior Scientist, Merrimack
Pharmaceuticals
Multispecific antibodies and antibody-like molecules
broaden the therapeutic application of IgGs, but they
can be challenging to engineer and manufacture. To
address this we first use a network biology approach
to identify key design parameters followed by iterative
rational engineering, rapid design cycles and high-
throughput screening assays to reduce heterogeneity.
Our approach selects for potential therapeutic
candidates with robust pharmaceutical properties.
2:30 Rapid Deployment of Analytical
Methods during Early Stage Biologics
Development
Marc Verhagen, Ph.D., Director, Biochemical Method
Development, Allergan
Efficient support of process and formulation
development activities during early stage programs
require a variety of methods for monitoring key
attributes of the compound of interest in samples
with widely varying matrices. Approaches to
establishing early stage methods, real time
assessment of suitability for use for different sample
types, and handling of documentation associated
with the initial stages of the method lifecycle will
be discussed.
3:00 Efficient Evaluation of Product
Quality Attributes during Early
Development
Pete Vandeberg, Ph.D., Director, Analytical Development, Grifols
During early phase development, prioritization is
placed on methods needed to support process
development and pre-clinical studies. Focus is
generally placed on methods to measure activity
and purity. Methods should have quick turn around
times and low manpower requirements. Analytical
characterization data gathered should be positioned
to file the IND and aid in further development.
4:15 High-Throughput Analytical Platforms
to Assess Product Quality Attributes at Early
Stage of Cell-Line Development
Shashi Prajapati, Ph.D, Senior Scientist, Biogen Idec
Here we present high-throughput (HTP) analytical
Needham, MA 02494
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Inaugural
for Biotherapeutics
Optimizing the Selection and Performance of Preclinical Analytical Studies
STREAM 3
Analytical
Development
& Quality
assays to facilitate rapid product quality using 96-well
plate formats. These HTP product quality assays
include HTP protein quantitation followed by HTP
protein purification and product quality analyses.
With these HTP analytical product quality assays,
we can assess product quality in the early stage of
clone screening, as well as expedite the cell-line and
process development.
4:45 Automation of Bioanalytical
Ligand-Binding Assays Using Modular
Robotic Scripts as a GenericTemplate
in Support of Discovery Biotherapeutic
Programs
Jia Duo, Ph.D., Research Investigator, Analytical and
Bioanalytical Development, Bristol-Myers Squibb
Traditional automation-assisted ligand-binding assays
(LBAs) use assay-specific scripts requiring labor-
intensive script writing and user training. Major
nonspecific script modules were developed to facilitate
automated sample preparation and LBA procedures.
The modular design of general automation scripts
allows users to assemble automated assays with
minimal script modification. Results demonstrate that
the modular scripts provide flexibility in adapting to
various LBA formats and significant time savings in
script writing and scientist training.
6:30 End of Day
THURSDAY, AUGUST 21
Coffee
EARLY DEVELOPMENT ASSAYS
Vijay Dhawan, Ph.D., Scientist, Bioanalytical
Development, Genzyme
8:30 Insights from Recent Regulatory
Filings and Pre-IND Meetings with FDA
Nadine M. Ritter, Ph.D., President and Analytical
Advisor, Global Biotech Experts, LLC
9:00 Streamlining Antibody
Characterization by Simultaneously
Monitoring Multiple Product Quality
Attributes
Catherine Eakin, Ph.D., Senior Scientist, Amgen
Process control of biopharmaceuticals is critical
for ensuring product quality, safety and efficacy for
patients. Owing to their complexity, large molecules
inherently have heterogeneity; however, throughout
development multiple analytics are employed to
define process consistency. We utilize a single mass
spectrometry based method that can simultaneously
measure multiple individual product quality attributes.
This approach is more efficient than conventional
characterization strategies and provides product
characterization at the residue specific level.
9:30 Analytical Characterization of Inline
claMPTag Protein-Metal Conjugates
Jennifer S. Laurence, Ph.D., Associate Professor,
Pharmaceutical Chemistry,University of Kansas
Metals are central components of imaging
diagnostics, chemotherapeutics, and biotechnology
reagents. Synthetic chelators are used to bind
metals and are chemically conjugated to proteins
for targeted applications. Metal-binding peptide tags
offer a linker-less alternative. Both approaches are
much more effective with lanthanides than transition
metals. We developed the metal abstraction peptide
(MAP) chemistry and engineered the linker-less
claMP Tag to enable usage of more biocompatible
metals. Characterization of these inline conjugates
will be presented.
with PosterViewing
10:45 Key Quality Attributes during the
Early Stage Development of a Biologic –
What Is Important for this Stage of the
Program?
Vijay Dhawan, Ph.D., Senior Scientist, Bioanalytical
Development, Genzyme
During the early stage development of a biologic,
selective preliminary critical quality attributes (CQAs)
should drive the initial analytical characterization of the
molecule. It is of paramount importance that these
efforts focus on attributes with a possible linkage
to the clinical outcome. Biological activity, identity
and purity are examples of few such attributes.The
analytical efforts to characterize these attributes can
serve a longstanding purpose during the lifecycle
management of the molecule.The choice of these
attributes and the associated analytical tools will
be discussed.
11:15 Generic vs. Specific
Immunoassays for Quantification of
Biotherapeutics in Late Research and
Early Development
Kelly Loyet, Ph.D., Scientist, Biochemical and Cellular
Pharmacology, Research, Genentech
It is necessary to evaluate potential biotherapeutics
with preclinical pharmacokinetic (PK) assays.These
assays measure the concentration of biotherapeutics
in a biological matrix. Commonly, quantitative
immunoassays are developed with analyte-specific
reagents, although it is also feasible to use a generic
approach with reagents that could quantify any
biotherapeutic in its class.These strategies may also
be complementary to further explore or confirm
unexpected results.
11:45The Roles of Analytical
Development and Protein
Characterization in Late Stage Discovery
Research and Early Stage Development
Andrew Downey, Ph.D., Researcher, Chemistry,
University of Massachusetts Lowell
Analytical methods examining the critical structural
and functional aspects of protein products should be
established by late stage discovery research and early
stage product development. Examples of analytical
studies discussed include characterization of structural
isoforms, assessment of functionality and identification
of degradation pathways, with a focus on evaluation
of ‘manufacturability.’Though encompassing various
factors, early recognition of drawbacks to effective
protein manufacturing ultimately contributes to product
quality and economy of development.
12:30 Sponsored Luncheon Presentation
Needham, MA 02494
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3rd
Annual
Higher-Order Protein Structure
Characterization, Prediction, Comparability and Biosimilars
STREAM 3
Analytical
Development
& Quality
Biophysical Characterization in
Developing Biopharmaceuticals:The
Path to Developability, Stability and
Comparability
Thursday, August 21, 6:30-9:30 pm
THURSDAY, AUGUST 21
HIGHER-ORDER PROTEIN
STRUCTURE: MECHANISMAND
IMPACT
Characterization of Protein Higher Order
Structure in Comparability & Biosimilarity:
A Regulatory Perspective
Maria-Teresa Gutierrez-Lugo, Ph.D., Product Quality
Reviewer, Division of Therapeutic Proteins, OBP/
Center for Drug Evaluation and Research, US Food
and Drug Administration
2:45 Measuring Higher-Order Structure of
Proteins: Rationale, Methodologies and
Expected Outcomes
Yatin R. Gokarn, Ph.D., Narotam Sekhsaria Distinguished
Professor of Chemical Engineering, Institute of Chemical
Technology, Mumbai, India
Subtle changes in the complex 3-D structures of
protein-based drugs can have profound effects on
efficacy and safety.Therefore the HOS of protein-drugs
needs to be carefully analyzed and tracked through
various stages of development, and product cycle.
We present an approach that combines analyses of
global solution state and behavior along with signatures
of secondary and tertiary structure using orthogonal
biophysical techniques. We show that a consistent,
information-rich HOS map can be created for a given
molecule, which can be helpful towards establishing
analytical comparability.
3:15 Understanding the Importance of Local
Structure for Protein Stability
Department of Pharmaceutical Chemistry, University of
Kansas
Stability depends on both protein composition and the
solution environment into which it is placed. Standard
approaches to examining protein stability rely on
global measures of structure or aggregation of the
product.These low-resolution techniques facilitate rapid
identification of compatible conditions, but insight about
how stabilization is achieved has remained elusive.
Solution NMR was used to detect changes to individual
residues, and specific influences on stability were
extracted from cross-correlation with standard evaluation
methods to assess mechanisms of instability in proteins.
3:45 Sponsored Presentation (Opportunity
Available)
with PosterViewing
ANALYTICAL COMPARABILITY
AND BIOSIMILARITY
4:45AssessingAggregate Content in
Originator Products as a Specification
Guideline for Biosimilars
Christina R. Vessely, Associate Director, Merck & Co.
Setting specifications for aggregate content in early
clinical stages for a biotechnology product can be
challenging due to limitations of analytical methods
and limited experience in the clinic. In the case of
biosimilars, the specification must also consider
aggregate levels in the originator product.This presents
an additional challenge because biosimilar companies
typically don’t have access to trueT=0 originator
material.This presentation discusses strategy for
setting an appropriate aggregate specification for a
biosimilar product.
5:15A Unique High-ThroughputAssay for
Determination of the Comparability of the
Potency and NeutralizingAntibody Response
to Biosimilars and Innovator Products
Michael G.Tovey, Ph.D., INSERM Director, Research,
Laboratory of Biotechnology and Applied Pharmacology,
ENS-Cachan, France
Successful development of biosimilars is dependent
upon the establishment of validated and standardized
assays that allow direct comparisons of the relative
potency and immunogenicity of innovator molecules and
biosimilars. A validated standardized high-throughput
cell-based assay platform will be described that is
applicable to most biopharmaceuticals and that allows
the direct comparison of drug potency and anti-drug
neutralizing antibody responseof innovator molecules
and biosimilarsin the same assay.
5:45 End of Day
Registration
Comparability
FRIDAY, AUGUST 22
8:00 am Registration and Morning Coffee
HIGH-RESOLUTION
COMPARABILITYTOOLS
Department of Pharmaceutical Chemistry, University of
Kansas
8:30 Qualification ofAnalytical Method Used
for Characterization of Protein Higher Order
Structure
Marina Kirkitadze, Ph.D., Deputy Director, Analytical
Research & Development, Sanofi Pasteur, Canada
The topic of this presentation is qualification of an
analytical method. Qualification consists of a simplified
evaluation of a subset of validation characteristics.There
are no predefined acceptability criteria for evaluation of
qualification characteristics, and the purpose to collect
experimental data to demonstrate whether an analytical
method is suitable for its intended use. Qualification
of Differential Scanning Calorimetry (DSC) is shown as
an example.
9:00 NMR Fingerprinting the Higher-Order
Structure of Biosimilars:A High Resolution
ComparabilityTool
Yves Aubin, Ph.D., Research Scientist, Protein Structure
and Analysis Laboratories, Regulatory Research Division,
Centre for Biologics Evaluation, Health Canada
Filgrastim is the generic name for recombinant methionyl
human granulocyte colony-stimulating factor (r-metHuG-
CSF). It is used for the treatment of neutropenia and it is
Needham, MA 02494
www.healthtech.com
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3rd
Annual
Characterization, Prediction, Comparability and Biosimilars
STREAM 3
Analytical
Development
& Quality
marketed under the brand name Neupogen® by Amgen.
Here we show that a simple NMR fingerprint assay can
be used to assess the three-dimensional structure of
the active ingredient in the formulated product at high-
resolution. In addition, the results of an inter-laboratory
NMR study of Neupogen® and biosimilars from the
market place will be presented to demonstrate the
robustness and precision of the method.
9:30Adopting Imaging and OtherTechniques
to Study NovelTherapeutic Modes Such as
the DVD-IgTM Molecule
Ivan R. Correia, MBA, Ph.D., Senior Principal Research
Scientist, Protein Analytics, Process Sciences, AbbVie
Bioresearch Center
The architecture and dynamics of a DVD-Ig™ molecule
and its parental mAbs was examined using single
particle electron microscopy. Hinge angles measured for
the DVD-Ig™ molecule were similar to the inner antigen
parental mAb.The outer binding domain of the DVD-Ig™
molecule was highly mobile and three-dimensional
(3D) analysis showed binding of inner antigen caused
the outer domain to fold out of the plane with a major
morphological change. Docking high-resolution X-ray
structures into 3D electron microscopy map supports
the extraordinary domain flexibility observed in the DVD-
Ig™ molecule allowing antigen binding with minimal
steric hindrance.
10:00 Mid-Morning Snack in the Exhibit Hall
with PosterViewing
10:45Application of High Resolution UPLC-MS
in Drug Product Comparability Studies
Yimin Hua, Ph.D., Quality Control Scientist I, Genzyme
Corporation, a Sanofi Company
The comparability study will involve not only
demonstration of analytical equivalence for protein
structures, it also verify that the products have similar
quality attributes and equivalent functionality.The product
biological activities as well as safety are examined,
including host cell DNA and proteins, degradants,
aggregates of proteins, etc.The analytical demonstration
in similarity commonly involves the use of forced
degradation methods such that both structure quality
attributes as well as product degradation pathways
are also compared.This talk will present comparability
studies utilizing the state-of-the-art technology with high
resolution UPLC-MS technique
11:15Advanced Mass Spectrometry for the
Characterization of Biopharmaceutical Post-
Translational Modifications
Angelo Palmese, Ph.D., Junior Researcher, Structural
Characterization, Analytical Development Biotech
Products, Merck Serono (Italy)
11:45 Site-Directed Spin Labeling toAssess
Higher Order Protein Structure
Lawrence Berliner Ph.D., Professor of Chemistry and
Biochemistry, University of Denver; Emeritus, Ohio State
University
The spin label method, combined with specific Cys
substitutions in proteins, has been shown to be a boon
to protein structure determination where other methods
fail.This methodology is highly suited for membrane
proteins as crystallographic methods will not succeed
here.The advantages are no requirement for optical
transparency, molecular weight limits are not an issue
and solid state matter is applicable.
12:45 Luncheon Presentation (Sponsorship
Opportunity Available)
TOOLS & METHODS FOR HOS
CHARACTERIZATION
Marina Kirkitadze, Ph.D., Deputy Director, Analytical
Research & Development, Sanofi Pasteur, Canada
1:30Advantages of Hydrogen Deuterium
Exchange Mass Spectrometry in
Understanding Multi-Domain Proteins
Thomas E. Wales, Ph.D., Research Assistant Professor,
Department of Chemistry and Chemical Biology,The
Barnett Institute of Chemical and Biological Analysis,
Northeastern University
Intramolecular interactions in multi-domain proteins may
play a major role in protein function. Hydrogen deuterium
exchange mass spectrometry (HDX MS) can be used to
investigate how domains influence one another, and in
particular how domain interactions can influence activity
from a distance.The application of HDX MS for this
purpose will be described for several proteins of varying
size and domain architecture.
2:00 Evaluation ofVibrational Spectroscopic
Techniques for Structural Characterization
of aTherapeutic MonoclonalAntibody in
Formulation Matrix
GeethaThiagarajan, Ph.D., Senior Scientist, Sterile
Product and Analytical Development, Merck & Co.
Structural complexity of biological drug products
presents an analytical challenge in terms of early
detection of aggregation and/or degradation. A set of
spectroscopic and non-spectroscopic analytical tests (HP-
SEC, SV-AUC, Raman, ROA, CD, Fluorescence, FTIR and
DLS) were evaluated for their sensitivity to detect heat-
induced molecular instability in a therapeutic monoclonal
antibody present in its formulation matrix.The first signs
of biophysical changes in the molecule were degradation
involving exposure of hydrophobic patches due to partial
unfolding, followed by aggregation. Sensitivity of the
different assays was rank ordered.
2:30 Probing Higher-Order Structure in Protein
Pharmaceuticals Using Infrared and Raman
Vibrational OpticalActivity
Laurence A. Nafie, Ph.D., Distinguished Professor
Emeritus, Department of Chemistry, Syracuse University
Vibrational optical activity (VOA), comprised of infrared
vibrational circular dichroism (VCD) and vibrational Raman
optical activity (ROA) provides enhanced sensitivity to
higher order structure (HOS) in proteins compared to
their parent IR and Raman spectra, as well as other
spectroscopic techniques. Examples of the sensitivity
of VOA to both protein secondary structure and HOS
in proteins will be presented as a sensitive new tool
for evaluating structural differences between originator
biopharmaceuticals and their bio-similars.
3:15TalkTitle to beAnnounced
Kelly Neelon, Ph.D., Associate Director, Drug Product
Formulation, Momenta Pharmaceuticals, Inc.
3:45Applications of Hydrogen Deuterium
Exchange – Mass Spectrometry for
Biopharmaceutical Development
Damian Houde, Ph.D., Scientist II, Protein
Pharmaceutical Development, Biogen Idec; Adjunct
Professor, Northeastern University
Protein biopharmaceuticals can exhibit unwanted
properties when solution conditions are changed.
Analytical tools capable of detecting changes in a protein
rapidly, accurately, and with high sensitivity are therefore
highly desirable to the biopharmaceutical industry.
Hydrogen/deuterium exchange mass spectrometry
(H/DX-MS) can be useful for investigating protein
conformation, dynamics and interactions. In this
presentation, specific applications of H/DX-MS will be
discussed that include the characterization of protein
biopharmaceuticals at high concentrations.
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Inaugural
CMC Strategies for Antibody-Drug Conjugates
Linking Process, Methods and Assays for the Manufacture of ADCs
STREAM 4
Development of
Next-Generation
Biologics
ADC “Developability”: Critical Quality Attributes
Inform Formulation and Process Development
Monday, August 18, 9:00 – 11:30 am
MONDAY, AUGUST 18
and Morning Coffee
9:00 – 11:30 Short Course:* ADC
“Developability:” Critical Quality
Attributes Inform Formulation and
Process Development
Remarks
Janet L. Wolfe, Ph.D., President, Wolfe Laboratories
1:10 Innovations, Challenges and
Opportunities in Antibody-Drug
Conjugates
Janet L. Wolfe, Ph.D., President, Wolfe
Laboratories
Antibody-drug conjugates (ADCs) are a rapidly
growing therapeutic class that leverages the
targeting specificity of antibodies with the
potency of small molecules. These highly complex
molecules require synchronized tuning of multiple
components, creating large technical challenges.
Excitement within this burgeoning field is causing
enormous innovation around various ADC formats,
creating even greater technical barriers. An
overview of the field will be provided, with a focus
on the challenges and opportunities of well defined
CMC strategies.
1:45 Druggable ExtracellularTargets
James Prudent, Ph.D., President & CEO, Centrose
The rate limiting internalization step for ADCs
requires extremely toxic drugs. If there were
external drug targets that could be mined, antibody
conjugates would not require internalization and
less toxic drugs could be employed. This talk
discusses potential targets that rest on the outside
of the cell and show data on how such extracellular
drug conjugates can be used for numerous
indications. The talk will also review some of the
development and CMC benefits that extracellular
drug conjugates bring.
BIOCONJUGATION ENABLING
DEVELOPABILITY AND
MANUFACTURABILITY OF ADCs
2:15 Generation of ADCs 2.0 Using
NovelToxins and Site-Specific Coupling
Andreas Pahl, Ph.D., CSO, Heidelberg Pharma
Toxic warheads of today’s ADCs are exclusively
based on compounds acting on microtubules or
DNA replication and seem to suffer from limitations
in certain cancer indications and tumor cells. New
generations of payloads enter the field including
Heidelberg Pharma’s amanitin, a highly effective
inhibitor of the eukaryotic RNA Polymerase II. Site
specific conjugation is going to overcome some
these limitations. This presentation will summarize
the current status of new toxins and appropriate
conjugation methods.
3:15 Carbohydrate-Mediated Site-
Specific Antibody-Drug Conjugation
Qun Zhou, Ph.D., Principal Scientist, Protein
Engineering, Genzyme, a Sanofi Company
Multiple antibody-drug conjugates have been
approved recently. However, the classical chemistries
to produce these conjugates by targeting primary
amines and disulfides have some shortcomings
including heterogeneous product profiles. We have
developed a novel site-directed conjugation strategy
targeting native carbohydrates of proteins to improve
the anti-tumor efficacy of antibody-toxin conjugate.
Our method provides a viable alternative without re-
engineering of protein sequences.
3:45 Optimizing ADC Properties through
Site-Specific Conjugation
Olivier Laurent, Ph.D., Vice President, CMC, Ambrx,
Inc.
Antibody-drug conjugates, or ADC, combine high
potency payloads with the targeting specificity
of antibodies. They hold tremendous potential in
the treatment of cancer but are also emerging as
therapeutic agents outside of oncology. Unfortunately,
ADC have also been historically complex to
manufacture and characterize due to the use of non-
specific conjugation chemistry. Here, we present
data on using site specific conjugation to improve
the attributes of ADC and improve their chance of
success during development.
Andrea (Junyan) Ji, Ph.D., Senior Scientist, Late Stage
topics available and join the moderated discussion
to share ideas, gain insights, establish collaborations
or commiserate about persistent challenges.
Then continue the discussion as you head into
the lively exhibit hall for information about the
latest technologies.
7:00 End of Day
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www.healthtech.com
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Inaugural
STREAM 4
Development of
Next-Generation
Biologics
TUESDAY, AUGUST 19
Coffee
ANALYTICAL CHARACTERIZATION
AND FORMULATION
Christian Schöneich, Ph.D., Takeru Higuchi
Distinguished Professor and Chair, Pharmaceutical
Chemistry, University of Kansas
8:00The Heterogeneity of ADCs and
Its Impact on Analytical Method
Development and Characterization
Lily Liu, BS, Principal Associate, Formulation and
Analytical Development, Agensys, Inc.
The possible combinations of payloads and IgG
isotypes confer additional heterogeneity to the ADC
molecules, adding an extra layer of complexity over
their mAb counterparts. This presentation will focus
on challenges with regards to analytical methods and
our approach to develop fit-for-purpose methods for
release and stability testing to support IND filings.
Characterization of the methods and the inferences to
the structure of the ADCs will also be discussed.
8:30 Photodegradation Reactions
of Antibodies and Antibody-Drug
Conjugates
Christian Schöneich, Ph.D., Takeru Higuchi
Distinguished Professor and Chair, Pharmaceutical
Chemistry, University of Kansas
Chemical and physical stability problems of ADCs
may arise from the exposure of ADCs to light, as (i)
several ADCs contain drug conjugates, which may
act as photosensitizer (e.g., CBI, duocarmycin or an
anthraquinone moiety), and/or (ii) the conjugation
of drug moieties to antibodies may change the
sensitivity towards light exposure. This talk will
focus on light-induced photodegradation of ADC
mimics, designed to evaluate the light-sensitivity and
degradation mechanisms of ADCs.
9:00 Characterization of Conformational
Stability of Antibody-Drug Conjugates
Machinani Rao, Ph.D., MBA, Executive Director,
Analytical Sciences/Quality Control, Progenics
Pharmaceuticals, Inc.
Conformational stability of an antibody-drug conjugate
relies on the structural integrity of the molecule.
Elucidation of conformational aspects of the
antibody is complex therefore orthogonal methods
are frequently applied. Conformational stability of
an antibody with a cytotoxic payload may alter the
binding properties and potency of the conjugated
antibody. An overview of various analytical methods
for characterization of conformational stability of the
antibody-drug conjugate will be presented.
with Poster Viewing
10:30The Role of High Drug Payload on
Physical Instability of Antibody-Drug
Conjugates
Yilma Adem, MSc, Formulation Scientist,
11:00 CQA-Based Approaches to
Formulation Development of an ADC
Program
Aditya Wakankar, Ph.D., Associate Director,
Formulation & Analytical Development, Stem CentRx
LLC.
Knowledge of CQA for ADCs is being incorporated
into the design of safe, efficacious and stable ADC
drug product formulations. Quality attributes for
an ADC can be categorized into those that are
associated with the antibody-drug conjugate, the drug
itself and those that are inherited from the antibody
intermediate. This talk will provide perspective on
what attributes are critical for an ADC (e.g. DAR,
free drug) and how this information can be utilized to
make informed formulation plans and decisions.
11:30 Development and Comparative
Stability of Liquid and Lyophilized
Formulations for a Developmental
Maytansinoid ADC
Karan Shah, MSc., Analytical Associate III, Analytical
and Pharmaceutical Sciences, Immunogen, Inc.
This presentation will discuss the screening studies
that were performed to develop viable liquid and
lypophilized formulation candidates for a development
stage maytansinoid ADC. The stability of the
candidate formulations will be compared using a
variety of analytical methods including SE-HPLC, RP-
HPLC and reduced/non-reduced CE SDS. Important
differences in the requirements for developing liquid
and lyophilized formulations will also be discussed.
1:15 Session Break
CMC, PROCESS
DEVELOPMENT AND REGULATORY
CONSIDERATIONS
Ian Schwartz, MSc., Senior Engineer, Process
Development, Agensys, Inc.
2:00 Regulatory CMC Considerations for
ADC Clinical Development
Mark Tardie, MSc., Senior Regulatory Manager, Global
Biotherapeutics CMC, Pfizer, Inc.
The significant number of antibody-drug conjugates
(ADCs) currently in development is testament to
their promising therapeutic benefit. In addition to the
complexity of unconjugated monoclonal antibodies,
ADCs exhibit unique properties, derived from the
linkage of a biologically produced antibody to a
small molecule drug, which require careful CMC
consideration. This presentation will explore ADC
development challenges, including the current lack of
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Inaugural
STREAM 4
Development of
Next-Generation
Biologics
comprehensive specific regulatory guidance, the use
of highly potent cytotoxic agents and the need for
heightened analytical testing.
2:30 Process Development of
Scalable Antibody-Drug Conjugate
Manufacturing Processes: Points to
Consider and Parameters to Control
Ian Schwartz, MSc., Senior Engineer, Process
Development, Agensys, Inc.
Antibody-Drug Conjugates (ADCs) are an exciting
class of targeted therapies for the treatment
of cancer. ADCs have process development
and manufacturing challenges in part due to
the uniqueness of combining a tumor targeting
antibody with a potent small molecule cytotoxic
agent. This presentation gives strategies for
process development of scalable and robust ADC
manufacturing processes.
3:00 Challenges and Considerations
for Clinical Development and
Manufacturing of ADCs
Steven Max, Ph.D., Associate Research Fellow,
Biotherapeutics Pharmaceutical Sciences, Pfizer, Inc.
The increased interest in antibody-drug conjugates
(ADCs) is a testament to their potential therapeutic
and safety advantages over conventional
chemotherapies. The ADC toolbox enables, for
example, the ability to evaluate different linker-payload
combinations, drug load (DAR) and conjugation
chemistries in order to optimize stability, safety and
efficacy in the clinic. However, these same options
can provide CMC-specific challenges en route to
regulatory approval and clinical dosing. This talk
will address some key considerations during the
development and manufacturing of ADCs.
4:15 Challenges of an Antibody-Drug
Conjugate Drug ProductTechTransfer
Kristin Chan, Engineer, Pharmaceutical Processing &
Technology Development, Genentech, Inc.
This presentation will be a case study of the drug
product tech transfer of a lyophilized ADC product.
The strategy to demonstrate equivalency of two
lyophilizers in the new site and product comparability
between the two sites will be reviewed. The
presentation will describe the studies performed to
assess the impact of the drug product manufacturing
process on product quality of ADCs.
4:45 Externalization of ADC
Manufacturing: Challenges andTriumphs
Vincent Turula, Ph.D., MBA, Director, Biotherapeutics
Pharmaceutical Sciences, Pfizer, Inc.
The manufacture of Antibody-Drug Conjugate clinical
trial material is complex as it involves the rapid
assembly of many components across a network
of specialized service providers. Regardless of the
stage of development, from clinical to commercial,
production and testing must be coordinated and
integrated into robust work streams. The focus of
this presentation will be on the challenges that exist
in outsourcing ADC manufacture and how a sound
strategy and operational consistency can lead to
shorten timelines and reduced cost.
Registration
Needham, MA 02494
www.healthtech.com
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Inaugural
Process Development for Novel
Biotherapeutic Formats
STREAM 4
Development of
Next-Generation
Biologics
Tuesday, August 19, 6:00 – 8:30 pm
Coffee
PROCESS DEVELOPMENT
FOR NOVEL MOLECULES
Amardeep Bhalla, Ph.D., Principal Scientist, Pfizer
Process Development in an Era of
New Product Formats and Changing
Technologies
Steven Lang, Ph.D., MBA, Scientific Director,
Biologics Research, J&J Biotechnology Center of
Excellence
The biotechnology industry has created huge
advances in efficiencies through the adoption of
platform processes during the last 10 years. New
therapeutic formats and technologies will challenge
platform processes and many development
organizations. Success in the next years will
depend on creating intelligent flexibility in multiple
platform development processes.
9:00 Rapid Characterization of
Recombinant Protein’s CQAs: HMW
Species and Particulates Determination
Using NovelTechnologies at Line during
Product Process Development Lifecycle
Nesredin Mussa, Ph.D., Global Manufacturing and
Supply, Bristol-Myers Squibb
9:30 Case Studies of Early Process
Development for Multi-Component
Vaccines
Amardeep Bhalla, Ph.D., Principal Scientist, Pfizer
with PosterViewing
10:45 Case Study: Development and
Manufacturing of a Common Light
Chain Bispecific Antibody: MCLA-128
Lex Bakker, Ph.D., Chief Development Officer, Merus,
The Netherlands
MCLA-128 is an ADCC-enhanced human common
light chain bispecific IgG1 antibody targeting
HER2 and HER3. MCLA-128 demonstrates potent
inhibition of HER2:HER3 heterodimer signaling and
robust anti-tumor activity in a trastuzumab-resistant
xenograft model. It is produced in CHO cells using
low fucose expression technology and Merus’
proprietary CH3 engineering to force bispecific IgG
heterodimerization. A robust purification process was
developed resulting in ultra pure MCLA-128 at high
process yields. MCLA-128 is currently undergoing
cGMP manufacturing to allow clinical evaluation in a
planned first-in-human phase I study.
11:15 Challenges and Insights in Rapid
Process Development for Insourced
Biotherapeutics of Varying Formats: A
Case Study in Upstream Strategy
Brian Doyle, Senior Research Associate, Gilead
1:30 Session Break
CASE STUDIES OF
UPSTREAM PROCESSING
Pratik Jaluria, Ph.D., Associate Director, Alexion
Pharmaceuticals
2:00 Upstream Process Development for
DARTs: Challenges and Opportunities
with Novel Antibody-Like Bispecifics
Andrew Snowden, Ph.D., Director, Cell Culture
Sciences, Macrogenics, Inc.
DART (Dual Affinity Re-Targeting) molecules are
highly modular antibody-like therapeutic proteins in
development for the treatment of human diseases
in the oncology, antiviral and autoimmune related
therapeutic areas. Data will be presented showing
that unlike a number of bispecific formats, DARTs
possess superior molecular attributes that facilitate
the routine development of high-titer processes.
Examples will be presented including aspects of CHO
production cell line generation and the development
of high-titer upstream bioprocesses for this new class
of antibody-like bispecifics.
2:30 Cell Culture Process Development
for a Novel Bispecific Antibody
Benjamin Wang, Ph.D., Senior Bioprocess Engineer,
Merrimack Pharmaceuticals
3:00 Collaboration between Upstream
and Downstream to Resolve the
Challenges of a Novel, Difficult-to-
Express Protein
Alan Gilbert, Ph.D., Senior Engineer, Cell Culture Development,
Biogen Idec
An upstream process was designed to increase titer of a
small, but highly positively charged protein. One of the unique
challenges with this particular protein was the protein’s
adherence to the cell surface. A critical step was identifying
a new feed medium additive to increase titer that ultimately
interfered with the ability to purify the protein. Extensive
collaboration between upstream and downstream was required
as a result, and integrating this development debottlenecked the
process.
Needham, MA 02494
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Inaugural
STREAM 4
Development of
Next-Generation
Biologics
4:15 Antibody Cocktails: Resolving
Batch-to-Batch Variation and Cell Line
Stability
Hugh H. Russell, Ph.D., Director, Antibody
Technologies, Excelimmune
Manufacturing of Antibody Combination Therapeutics
(ACTs) requires reproducible antibody stoichiometry
during production. The presentation will discuss
production of cell lines vs. stable pools and methods
of cell line creation. Research demonstrates AAV-
based integration is superior to random integration
for cell line generation and that stable pools are
capable of maintaining a consistent antibody ratio
during culture.
4:45 Improve-Ization: Challenges in Re-
Development of a Late-Stage Upstream
Process
Pratik Jaluria, Ph.D., Associate Director, Alexion
Pharmaceuticals
In developing a new, more productive upstream
process for a late-stage therapeutic protein, a
number of challenges were encountered. This
presentation describes experimental work across
multiple scales evaluating process changes
designed to retain key product quality metrics while
overcoming the limitations in our existing cell culture
platform process.
6:30 End of Day
THURSDAY, AUGUST 21
Coffee
CASE STUDIES OF
DOWNSTREAM PROCESSING
Amith Naik, Ph.D., RAC, Senior Scientist, Biomanufacturing
Training and Education Center, North Carolina State University
8:30 Process Development Challenges
for FGF21 Protein-Antibody Conjugates
Rory Finn, Principal Scientist, Conjugate and
Polytide Process Development, Biotherapeutics
Pharmaceutical Sciences, Pfizer
9:00 Purification Challenges for High-
Concentration Monoclonal Antibodies
Hong Li, Ph.D., Principal Scientist, Purification
Process Development, Merck
Developing a successful high-concentration
formulation of monoclonal antibody for subcutaneous
delivery is increasingly desirable. Solubility of
the target protein, opalescence, viscosity, and
aggregation can result in significant challenges for
the manufacturing process. This presentation will
focus on the challenges during the development of
an Ultrafiltration (UF) step. Developability assessment
for target proteins, membrane type system set up for
high recovery, and process scale-up are highlighted
for discussion.
9:30 Impact of Inclusion Body Quality
on Downstream Processing of Novel
Biotherapeutic Molecules
Timothy Pabst, Ph.D., Scientist, Purification Process
Science, MedImmune
Refolding of proteins with acceptable yield for the
production of therapeutic drug products remains
a challenge and requires high quality inclusion
bodies. We present an informative case study on
the impact of inclusion body quality on product yield
and quality by comparing a clinical manufacturing
process for a recombinant immunotoxin with the
commercial process that was developed to replace
it. A systematic approach to commercial process
development led to five-fold increase in yield and
eliminated fractionation and in-process testing.
with PosterViewing
10:45 Downstream Process for Single
Chain Antibody Fragment
Amith Naik, Ph.D., RAC, Senior Scientist,
Biomanufacturing Training and Education Center,
North Carolina State University
Antibody fragment-based drugs have the high
specificity of whole antibody but offer better tissue
penetration and less immunogenicity. However, the
lack of the Fc region means that the Protein A based
platform purification process cannot be employed for
antibody-fragments. We present the development of
a downstream process for capture and purification
of an scFv from bacteria (E. coli) lysate and yeast
supernatant. The process comprising of two steps,
diafiltration and ion exchange chromatography purified
scFv with a purity and recovery of 97% and 90%
respectively.
11:15 High-Throughput Protein
Purification Development at Candidate
Selection Phase to Facilitate “Fast-
to-Clinic”Approach: A Comparative
Analysis of Resin-Based Processes vs.
Disposable MembraneTechnologies
Eugene Nebelitsky, Senior Scientist, Integrated
Biologics Profiling (IBP), Novartis
A systematic approach to assure that a selected Lead
molecule candidate proceeding into development
supports “first-to-clinic” approach requires
production of high quality recombinant proteins to
help drive biochemical assays, physico-chemical
characterizations, and structural biology studies. This
presentation will discuss high-throughput protein
purification strategies using various HT formats
(conventional resins and disposable membrane
technologies). This talk will also emphasize
our efficiencies gained by data visualization
strategies, and implementation of high-throughput
analytical methods to ensure decreased time from
experimentation to data analysis.
11:45 Enabling Industrial Production of
Lentiviral Vectors for GeneTherapy
Michael Kuczewski, Ph.D., Scientist, Purification Process
Development, Bluebird Bio
Needham, MA 02494
www.healthtech.com
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Inaugural
CellTherapy Bioproduction
Overcoming the Development, Processing and Scale-Up/Out Dilemma
STREAM 4
Development of
Next-Generation
Biologics
Biophysical Characterization in Developing
Biopharmaceuticals:The Path to
Developability, Stability and Comparability
Thursday, August 21, 6:30- 9:00 pm
THURSDAY, AUGUST 21
Robert Deans, Ph.D., Executive Vice President,
Regenerative Medicine, Athersys, Inc.
»»FEATURED PRESENTATION
2:00The Dawn of a New Day forTissue
Engineering: Applications Enabled by
Cell Manufacturing Innovations
Jon A. Rowley, Ph.D., Chief Executive and Technical
Officer, RoosterBio
The cell therapy Product Innovations of the early
2000s has led to the expected Manufacturing
Process Innovations over the last few years.The
latter has led to increased lot sizes and a focus on
decreasing COGS of the cellular products that are
moving through late stage clinical trials. As the cost
of therapeutic cells decreases and availability of
cells increases, new fields that require abundant
and affordable high quality cells, such as tissue
engineering and bioprinting, will begin to accelerate.
KEY CONCEPTS IN
PRECISION MANUFACTURING
AND COST-OF-GOODS
2:45 Precision Manufacturing of Living
Materials – Working It Out for Cell
Therapies
David J. Williams, Ph.D., Professor, Healthcare
Engineering, Centre for Biologics Engineering,
Loughborough University
The presentation will introduce key concepts of
precision manufacturing in particular that of process
capability. It will then discuss the key manufacturing
scenarios for cell therapies with respect to the
fundamentals of Good Manufacturing Practice and
variation and it’s control with a focus on biological
variation. It will close by identifying the particular
issues on which the cell therapy community should
work together pre-competitively in order to facilitate
the development and manufacturing of cell therapies.
3:15 Understanding CellTherapy Cost
of Goods – Linking Detailed Analysis to
Industry Challenges
Mark McCall, Ph.D., Enterprise Fellow, Loughborough
University
The presentation will introduce how detailed analysis
of manufacturing systems and business models can
produce reliable estimates of Cost of Goods for cell
therapies. It will then discuss several scenarios with
specific case studies performed using an activity
based cost model. . It will finish by identifying the
particular issues that this model has identified as
current production bottlenecks for the cell therapy
community and propose mitigation strategies to
address these.
5:15 Presentation to be Announced
5:45 End of Day
Registration
Comparability
FRIDAY, AUGUST 22
Coffee
ANALYTICAL CHARACTERIZATION:
POTENCY ASSAYS, RELEASE
TESTING AND CONTROL
STRATEGIES
Mark Angelino, Ph.D., Vice President, Pharmaceutical
Sciences, bluebird Bio
8:30Translating a Research
Methodology into a Mechanism of
Action Based Validated Potency Assay
Sagi Nahum, Ph.D., QC Manager, Pluristem
Therapeutics, Inc.
Validated potency assays aims to measure or predict
the expected therapeutic mechanism of action
(MOA). Clinical data may be used to establish a
correlation between potency assays allowing lot
release and stability. Most of the potency assays
emerge from research and academy transforming to
potency assays after a long journey of validation. The
talk will describe the path and challenges of bioassay
development from research to QC based on Pluristem
Therapeutics experience.
9:00 Autologous Lots of CellTherapy
Products: Potency Defined by
Commonality
Don Healey, Ph.D., CSO, Opexa Therapeutics
Autologous lots of cell therapy products invariably
display differences in either phenotype and/or
genotype, as may be a requirement to meet their
intended mechanism of action on a per patient basis.
Nevertheless, potency can be defined based on
biological features that must be held ‘in common’
between products that achieve the intended clinical
benefit. The development of potency assays should
be multi-factorial in the first instance, and should be
initiated early in the process development timeline.
Needham, MA 02494
www.healthtech.com
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Inaugural
STREAM 4
Development of
Next-Generation
Biologics
9:30 Critical Quality Attributes (CQA)
Identification for a Cell-Based Gene
Therapy Product, Approaches to
Selection and Validation of ReleaseTest
Methods
Bernadette Keane, BSc., Vice President, Quality,
Bluebird bio
In the emerging fields of cellular and gene therapy,
control strategies are not yet well defined and pose
their own set of challenges due to inherent variability
of living systems. Using examples from autologous
cell based gene therapy products, the presenter will
discuss approaches to validation of test methods
employed in the release of cell based gene therapy
products.
10:00 Mid-Morning Snack in the Exhibit
10:45 Rapid Microbiological Methods
to Enhance Safety Profile of Cell-Based
Therapeutics
Gary C. du Moulin, Ph.D., MPH, RAC, Senior
Director, Quality Aseptic Controls, Genzyme (a Sanofi
Company)
Cell-based therapeutics has accelerated Rapid
Microbiological Methods implementation. In 2004,
the United States Food and Drug Administration
(FDA) approved an RMM for lot release of Genzyme’s
cell therapy product, Carticel®. Globalization of
pharmaceutical quality systems, which emphasizes
risk assessment and continual improvement of
manufacturing processes has further accelerated
acceptance of these technologies. RMM have the
ability to identify microbiological risks, monitor critical
control points in real time thus enhancing the safety
profile of cell therapy products.
SCALING-UP/OUT AND
PROCESS OPTIMIZATION
11:15 Scale-Up and Optimization of an
Allogeneic CellTherapy Process
Hari Kamaraju, Ph.D., Senior Associate Scientist,
Pharmaceutical Development & Manufacturing
Sciences, Janssen Research & Development
11:45 Optimization ofT Cell Production
Process for AdoptiveT CellTherapy
Pranay Khare, Ph.D., Director, Research, Cancer
Immunotherapy and Gene Therapy cGMP Facility,
Roger Williams Medical Center
Adaptive T cell therapy has showed promising results in several
clinical trials for leukemia, but limited success has been achieved
in solid tumors. Almost all clinical studies have used interleukin-2
as primary cytokine for the T cell production and expansion
process. This talk will focus on the optimization protocol for T
cell production process using other common gamma-chain family
cytokines of T cell, and explore the therapeutic response of T cells
for solid
tumors using adoptive T cell therapy approach.
12:45 Single-Use Expansion Sponsored by
and Harvest
of Adult Stem Cells Supports
Large-Scale Manufacturing
Julie R. Murrell, Ph.D., Program Manager,
Collaborations; R&D Manager, EMD Millipore
Corporation
As more stem cell therapeutics progress through
clinical testing, current in vitro culture methods are
cumbersome to scale. Here we describe a case
study for full expansion, harvest and characterization
system for hMSCs. In this work, we verified that cells
expanded in the single-use stirred tank bioreactor and
subsequently harvested were identical in phenotypic
and genotypic profile in comparison to flat culture and
maintained the desired cell characteristics of hMSCs,
thereby confirming the consistency, quality and
reproducibility of large-scale in vitro systems for stem
cell expansion.
STRATEGIES FOR CLINICAL
TO COMMERCIAL
MANUFACTURING
Ravinder Bhatia, Associate Director, Pharmaceutical
Development and Manufacturing Sciences, Johnson
& Johnson
1:30 Adherent Stem CellTherapy for
Stroke: Anticipating Commercial Scale
Manufacturing
Robert Deans, Ph.D., Executive Vice President,
Regenerative Medicine, Athersys, Inc.
2:00 Strategy to Commercialize
Autologous CellTherapies
Knut Niss, Ph.D., SeniorTechnical Project Leader,
Novartis Pharmaceuticals Corp.
2:30 Commercial Autologous Cell
Culture Manufacturing Benefits and
Challenges
Alexander M. Ernesti, BSc., Operations Director,
Manufacturing Operations, Sanofi Biosurgery
The benefit of delivering a life-saving or life enhancing
cell therapy product to a patient manufactured from
their own cellular material potentially can improve
medical outcomes and lower regulatory hurdles
for approval. Sanofi Biosurgery has developed a
robust commercial process to address production
scale-up of a manual manufacturing process in a
class A environment, raw material scrape rates,
employee ergonomic issues and high production lot
to lot variability.
Needham, MA 02494
www.healthtech.com
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Inaugural
STREAM 4
Development of
Next-Generation
Biologics
3:15 Manufacturing of Cell-Based
Biopharmaceuticals for theTargeted
Delivery ofTherapeutic Genes in an
OncologyTrial
Ralf Huss, M.D., Ph.D., CSO, apceth GmbH & Co. KG
The clinical application of cellular therapeutics
represents also a new challenge to meet the
regulatory requirements for manufacturing, quality
control and approval. However we have initiated a
world-wide first clinical trial (TREAT-ME 1) for the
treatment of advanced adenocarcinoma of the
gastrointestinal tract. The pharmaceutical product
(IND) consists of somatic stem cells delivering a
prodrug gene under the control of a tumor tissue
specific promoter to enhance local efficacy and
reduce any off-target toxicity.
3:45The Road NotTaken… Moving Cell
Therapy from Benchtop to an Industry
Ohad Karnieli, Ph.D., MBA, Vice President,
Development and Manufacturing, Pluristem
Therapeutics, Israel
The need for large quantities of cells with high quality
becomes crucial as product candidates advance
into clinical trials. Technologies are evolving to
allow production of large quantities. Nevertheless,
high quantities of cells opens new questions and
challenges of cell quality, identity, reproducibility and
cost. The talk will describe the development of the
GMP manufacturing technology for PLX (PLacental
eXpanded) cell product candidates and some of the
bottlenecks encountered in Pluristem’s pilot and
manufacturing facilities.
»»FEATURED PRESENTATION
4:15Towards Bioengineered Control
of Cell Fate PostTransplantation
Jeffrey M. Karp, Ph.D., Associate Professor of
Medicine, Brigham and Women’s Hospital, Harvard
Medical School
Control of cell fate and its extracellular environment
following transplantation is critical for maximizing
efficacy of cell based therapy. This talk will
explore methods to enhance the engraftment
and tracking of systemically infused stem cells
through engineering the cell surface and through
functionalizing cells with contrast agents and
depots containing phenotype altering agents.
Needham, MA 02494
www.healthtech.com
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CHI offers comprehensive sponsorship packages which
include presentation opportunities, exhibit space, branding
and networking with specific prospects. Sponsorship allows
you to achieve your objectives before, during, and long after
the event. Any sponsorship can be customized to meet your
company’s needs and budget. Signing on early will allow you
to maximize exposure to qualified decision-makers.
Podium Presentations – Available Within the Main Agenda!
Showcase your solutions to a guaranteed, targeted audience.
Package includes a 15- or 30-minute podium presentation within
the scientific agenda, exhibit space, on-site branding, access to
cooperative marketing efforts by CHI, and more.
Breakfast & Luncheon Podium Presentations
Opportunity includes a 30-minute podium presentation. Boxed
lunches are delivered into the main session room, which guarantees
audience attendance and participation. A limited number of
presentations are available for sponsorship and they will sell out
quickly. Sign on early to secure your talk!
Invitation-Only VIP Dinner/Hospitality Suite
Sponsors will select their top prospects from the conference pre-
registration list for an evening of networking at the hotel or at a
choice local venue. CHI will extend invitations and deliver prospects,
helping you to make the most out of this invaluable opportunity.
Evening will be customized according to sponsor’s objectives i.e.:
• Purely social
• Focus group
• Reception style
• Plated dinner with specific conversation focus
Exhibit
Exhibitors will enjoy facilitated networking opportunities with
qualified delegates. Speak face-to-face with prospective clients and
showcase your latest product, service, or solution.
Additional branding and sponsorship opportunities available!
Looking for additional ways to drive leads to your sales team?
One move can make all the difference!
CHI’s Lead Generation Programs will help you obtain more targeted,
quality leads throughout the year. We will mine our database of
800,000+ life science professionals to your specific needs. We
guarantee a minimum of 100 leads per program! Opportunities
include:
• Whitepapers
• Web Symposia
• Custom Market Research Surveys
• Podcasts
Advertising opportunities such as marketing and promotional
emails are also available.
For additional sponsorship and exhibit information,
please contact:
Jason Gerardi
Business Development Manager
781-972-5452 | jgerardi@healthtech.com
Sponsorship, Exhibit, and Lead Generation Opportunities
ArrayXpress, Inc.
Asahi Kasei Bioprocess
Avia Biosystems
BIA Separations
BioAgilytix Labs
Charter Medical
EMD Millipore
Freeslate, Inc.
Infors USA
Malvern Instruments
MaxCyte, Inc.
Precision Bioservices
Regeneron Pharmaceuticals
SensiQ Technologies, Inc.
Solentim
TAP Biosystems
Wyatt Technology Corporation
2014 Sponsors & Exhibitors
(As of April 7, 2014)
Needham, MA 02494
www.healthtech.com
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Hotel &Travel Information
Conference Venue and Hotel:
Renaissance Waterfront Hotel
606 Congress St.
Boston, MA 02210
Phone: 617-338-4111
Discounted Room Rate: $229 s/d
Discounted Cut-off Date: July 21, 2014
Please make your hotel reservation or call the hotel
directly to reserve your sleeping accommodations. You
will need to identify yourself as a Cambridge Healthtech
Institute conference attendee to receive the discounted
room rate with the host hotels. Reservations made after
the cut-off date or after the group room block has been
filled (whichever comes first) will be accepted on a
space-and-rate-availability basis. Rooms are limited, so
please book early.
Flight Discounts:
Special discounts have been established with
American Airlines for this conference:
• Call 1-800-433-1790 (authorization code 23H4BR).
• Go online at www.aa.com (enter 23H4BR in
promotion discount box).
• Contact our designated travel agent, Rona Meizler at
1-617-559-3735 or rona.meizler@protravelinc.com
Car Rental Discounts:
Special discount rentals have been established
with Hertz for this conference.
Make your reservation online or call Hertz directly
at 800-654-3131 and reference our Discount
Number 04KL0005
Web Partners:
Sponsoring Publications:
Lead Sponsoring Publications:
FierceBiotechTHE BIOTECH INDUSTRY’S DAILY MONITOR
REASONS TO STAY AT THE RENAISSANCE HOTEL:
You couldn’t ask for a more centrally located and convenient hotel for your stay. Just minutes away from
Boston’s Logan Airport, The Renaissance Boston Waterfront Hotel is located on the revitalized Boston Harbor
steps away from some of Boston’s best new restaurants. With spectacular harbor views, the contemporary
designed Renaissance Hotel includes an indoor pool, well-equipped fitness center, Starbucks in the lobby and
free internet access in your guest room for Bioprocessing Summit attendees. It is also easily accessible to
Boston’s bustling financial district, the North End and Historic Faneuil Hall.
TM
Needham, MA 02494
www.healthtech.com
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How to Register: BioprocessingSummit.com
reg@healthtech.com • P: 781.972.5400 orToll-free in the U.S. 888.999.6288
Please use keycode 1481 EF when registering
CONFERENCE DISCOUNTS
Poster Submission - Discount ($50 Off): Poster abstracts are due
by July 18, 2014. Once your registration has been fully processed,
we will send an email containing a unique link allowing you to
submit your poster abstract. If you do not receive your link within
5 business days, please contact jring@healthtech.com. *CHI
reserves the right to publish your poster title and abstract in
various marketing materials and products.
REGISTER 3 - 4th IS FREE: Individuals must register for the same
conference or conference combination and submit completed registration
form together for discount to apply.
Group Discounts: Discounts are available for multiple attendees from
the same organization. For more information on group rates contact
David Cunningham at +1-781-972-5472
If you are unable to attend but would like to purchase The Bioprocessing
Summit CD for $750 (plus shipping), please visit BioprocessingSummit.
com. Massachusetts delivery will include sales tax.
Monday-Tuesday
August 18-19
Wednesday-Thursday
August 20-21
Thursday-Friday
August 21-22
Optimizing Cell Culture Technology
& Disposables
Overcoming Formulation Challenges High-Concentration Protein Formulations Advances in Purification Technologies
for Biotherapeutics
CMC Strategies for Antibody-
Drug Conjugates
Cell Therapy Bioproduction
Introduction to Bioprocessing
Global Regulatory Expectations for
Analytical Elements of Biotechnology/
Biosimilar Products
Pharmaceutical Outsourcing
Introduction to Cell Culture
Introduction to Biologics Formulation
and Delivery
ADDITIONAL REGISTRATION DETAILS
Each registration includes all conference sessions, posters and exhibits, food
functions, and access to the conference proceedings link.
Handicapped Equal Access: In accordance with the ADA, Cambridge Healthtech
Institute is pleased to arrange special accommodations for attendees with special
needs. All requests for such assistance must be submitted in writing to CHI at least
30 days prior to the start of the meeting.
To view our Substitutions/Cancellations Policy, go to www.healthtech.com/
regdetails
Video and or audio recording of any kind is prohibited onsite at all CHI events.
Commercial Academic,
Government,
Hospital-affiliated
CONFERENCE & TRAINING SEMINAR PRICING
PREMIUM PACKAGE (Includes access to all conferences and training seminars Monday-Friday. Excludes short
courses.)
Early Registration Discount until June 6, 2014 $2745 $1375
Advance Registration Discount until July 18, 2014 $2945 $1475
Registrations after July 18, 2014, and on-site $3145 $1545
STANDARD PACKAGE (Includes access to two conferences and/or training seminars. Excludes short courses)
BASIC PACKAGE (Includes access to one conference or training seminar. Excludes short courses)
SHORT COURSE PRICING
One short course $595 $345
Two short courses $895 $645
Three short courses $1095 $745
Needham, MA 02494
www.healthtech.com
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The Bioprocessing Summit 2014 Agenda

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