1. FDA’s Office of Critical Path Programs (OCPP)
The Clinical Trials Transformation Initiative (CTTI)
FDA’s Clinical Investigator Course
3. Drug Substance & Product [312.23(a)(7)]
A description of the drug substance, including its… characteristics
A list of all components…used in the manufacture…
Drug substance and drug product manufacturer information
The general method of preparation…
The acceptable limits and analytical methods used to assure the identity, strength, quality, and purity… [specifications]
Information to support the stability of the drug… during the … proposed study(ies)
4. 1? structure
higher order structure
post-translational modifications
heterogeneity
Structure of complex molecules Assessment of the biological properties constitutes an equally essential step in
establishing a complete characterization profile. An important property is the
biological activity that describes the specific ability or capacity of a product to achieve
a defined biological effect.
A valid biological assay to measure the biological activity should be provided by the
manufacturer. Examples of procedures used to measure biological activity include:
· Animal-based biological assays, which measure an organism's biological response
to the product;
· Cell culture-based biological assays, which measure biochemical or physiological
response at the cellular level;
· Biochemical assays, which measure biological activities such as enzymatic
reaction rates or biological responses induced by immunological interactions.
Other procedures such as ligand and receptor binding assays, may be acceptable.
Potency (expressed in units) is the quantitative measure of biological activity based
on the attribute of the product which is linked to the relevant biological properties,
whereas, quantity (expressed in mass) is a physicochemical measure of protein
content. Mimicking the biological activity in the clinical situation is not always
necessary. A correlation between the expected clinical response and the activity in
the biological assay should be established in pharmacodynamic or clinical studies.
The results of biological assays should be expressed in units of activity calibrated
against an international or national reference standard, when available and
appropriate for the assay utilized. Where no such reference standard exists, a
characterized in-house reference material should be established and assay results of
production lots reported as in-house units.
Often, for complex molecules, the physicochemical information may be extensive but
unable to confirm the higher-order structure which, however, can be inferred from the
biological activity. In such cases, a biological assay, with wider confidence limits, may
be acceptable when combined with a specific quantitative measure. Importantly, a
biological assay to measure the biological activity of the product may be replaced by
physicochemical tests only in those instances where:
· sufficient physicochemical information about the drug, including higher-order
structure, can be thoroughly established by such physicochemical methods, and
relevant correlation to biologic activity demonstrated; and
· there exists a well-established manufacturing history.
Where physicochemical tests alone are used to quantitate the biological activity
(based on appropriate correlation), results should be expressed in mass.
Test Procedures and Acceptance Criteria for Biotechnological/Biological Products
For the purpose of lot release (section 4), the choice of relevant quantitative assay
(biological and/or physicochemical) should be justified by the manufacturer.
2.1.3 Immunochemical properties
When an antibody is the desired product, its immunological properties should be fully
characterized. Binding assays of the antibody to purified antigens and defined
regions of antigens should be performed, as feasible, to determine affinity, avidity and
immunoreactivity (including cross-reactivity). In addition, the target molecule bearing
the relevant epitope should be biochemically defined and the epitope itself defined,
when feasible.
For some drug substances or drug products, the protein molecule may need to be
examined using immunochemical procedures (e.g., ELISA, Western-blot) utilizing
antibodies which recognize different epitopes of the protein molecule.
Immunochemical properties of a protein may serve to establish its identity,
homogeneity or purity, or serve to quantify it.
If immunochemical properties constitute lot release criteria, all relevant information
pertaining to the antibody should be made available.
Assessment of the biological properties constitutes an equally essential step in
establishing a complete characterization profile. An important property is the
biological activity that describes the specific ability or capacity of a product to achieve
a defined biological effect.
A valid biological assay to measure the biological activity should be provided by the
manufacturer. Examples of procedures used to measure biological activity include:
· Animal-based biological assays, which measure an organism's biological response
to the product;
· Cell culture-based biological assays, which measure biochemical or physiological
response at the cellular level;
· Biochemical assays, which measure biological activities such as enzymatic
reaction rates or biological responses induced by immunological interactions.
Other procedures such as ligand and receptor binding assays, may be acceptable.
Potency (expressed in units) is the quantitative measure of biological activity based
on the attribute of the product which is linked to the relevant biological properties,
whereas, quantity (expressed in mass) is a physicochemical measure of protein
content. Mimicking the biological activity in the clinical situation is not always
necessary. A correlation between the expected clinical response and the activity in
the biological assay should be established in pharmacodynamic or clinical studies.
The results of biological assays should be expressed in units of activity calibrated
against an international or national reference standard, when available and
appropriate for the assay utilized. Where no such reference standard exists, a
characterized in-house reference material should be established and assay results of
production lots reported as in-house units.
Often, for complex molecules, the physicochemical information may be extensive but
unable to confirm the higher-order structure which, however, can be inferred from the
biological activity. In such cases, a biological assay, with wider confidence limits, may
be acceptable when combined with a specific quantitative measure. Importantly, a
biological assay to measure the biological activity of the product may be replaced by
physicochemical tests only in those instances where:
· sufficient physicochemical information about the drug, including higher-order
structure, can be thoroughly established by such physicochemical methods, and
relevant correlation to biologic activity demonstrated; and
· there exists a well-established manufacturing history.
Where physicochemical tests alone are used to quantitate the biological activity
(based on appropriate correlation), results should be expressed in mass.
Test Procedures and Acceptance Criteria for Biotechnological/Biological Products
For the purpose of lot release (section 4), the choice of relevant quantitative assay
(biological and/or physicochemical) should be justified by the manufacturer.
2.1.3 Immunochemical properties
When an antibody is the desired product, its immunological properties should be fully
characterized. Binding assays of the antibody to purified antigens and defined
regions of antigens should be performed, as feasible, to determine affinity, avidity and
immunoreactivity (including cross-reactivity). In addition, the target molecule bearing
the relevant epitope should be biochemically defined and the epitope itself defined,
when feasible.
For some drug substances or drug products, the protein molecule may need to be
examined using immunochemical procedures (e.g., ELISA, Western-blot) utilizing
antibodies which recognize different epitopes of the protein molecule.
Immunochemical properties of a protein may serve to establish its identity,
homogeneity or purity, or serve to quantify it.
If immunochemical properties constitute lot release criteria, all relevant information
pertaining to the antibody should be made available.
5. Interferon�-gamma
6. Attributes & Combinatorics These changes are not necessarily independent
The vast majority of these occur at miniscule levels or not at all
They are generally not characterized in many products
However some of these may matter. There have been difference in products pot change that have not been correlated with a particular structural attribute. Maybe some of these depend on combinations of changes.
Characterization of structure and heterogeneity is not enough-?These changes are not necessarily independent
The vast majority of these occur at miniscule levels or not at all
They are generally not characterized in many products
However some of these may matter. There have been difference in products pot change that have not been correlated with a particular structural attribute. Maybe some of these depend on combinations of changes.
Characterization of structure and heterogeneity is not enough-?
7. Removal of glycosylation by mutation of Asn297 eliminates binding to Fc-receptors and C1q , and increases the sensitivity to proteases, though the half-life of IgG1 is not effected (Wright and Morrison, TIBTECH review 1997 vol.15).
8. Types of Specifications Identity & purity should include:
native and denatured size (sensitive to aggregates)
chargeIdentity & purity should include:
native and denatured size (sensitive to aggregates)
charge
9. Safety Specifications
10. Potency Assay Types-Bioassay In vivo assays
Organ or tissue assays
Cell culture assays
Cell line or population response
Late response (proliferation, cytokines)
Early response (signaling pathway)
Multiple cell types (MLR, cell-cell adhesion)
Biochemical assays
catalytic Ab
enzyme blockade
11. Potency Assay Continuum
12. Presentation Outline IND Content, Characterization & Specifications for Biologics
Manufacturing Changes & Comparability
Contaminants in Manufacturing
Common Pitfalls
13. How Much of the Iceberg �(desired product) Can We See?
14. Comparability The extent of the quality information required is dependent on the clinical/non clinical data set transferring to product produced from the new process
Less quality data are used to support comparability assessments in early development
Thus communication regarding clinical status is critical to assess comparability data needed
15. Differences are Often Observed Impact of observed differences may be known or judged to be of low risk
If impact is unknown, additional testing may be necessary
pre-clinical and/or clinical studies
Lack of observed differences without appropriate characterization may still require additional testing
16. Changes in Manufacturing
Switch from vial to syringe for Cytokine
Stability decreased, new impurities were detected following approval
Metal ions from stopper activated trace proteases in product
Large Scale change in Drug Substance manufacture
Small shift in post-translational modifications
A significant shift in bioavailability
18. Immunogenicity
Erythropoetin
Changed to a HSA-free formulation in syringes
No changes in quality parameters or Pk but antibody associated cases of pure red cell aplasia
Interferon beta 1a
New MCB and facility
Post changed product had no “significant” differences in physicochemical attributes, bioactivity or PK - product was marketed.
Post marketing study; incidence of neutralizing Ab changed from 24 to 5%
19. Comparability Additional Studies
20. Presentation Outline IND Content, Characterization & Specifications for Biologics
Manufacturing Changes & Comparability
Contaminants in Manufacturing
Common Pitfalls
21. Source �Materials Currently the Division has over 460 Pre-license files for products in clinical development for a wide range of uses.
In addition, we regulate 24 products already on the market, including 19 Biologics License Applications (and an additional 2 that are currently under review), 4 New Drug Applications, and 1 antibody for a cell selection device.
The next slide <next slide> shows a list
Currently the Division has over 460 Pre-license files for products in clinical development for a wide range of uses.
In addition, we regulate 24 products already on the market, including 19 Biologics License Applications (and an additional 2 that are currently under review), 4 New Drug Applications, and 1 antibody for a cell selection device.
The next slide <next slide> shows a list
22. Infectious Agents Testing
Cell Bank & End of Production
Sterility
Mycoplasma
Virus (Adventitious, Species-specific, Retrovirus)
Source material screening
Human (HIV, HBV, HCV, CJD, etc.)
Animal (TSE sources, viruses)
Process
Filtrations
Environmental controls
Viral clearance studies
23. Viral Clearance Endogenous
for early dev
Adventitious
for late dev
Evaluate unit operations
24. Alternative Clearance studies� Clearance can be used for contaminants as well as virus
Generic Clearance Study – virus clearance is demonstrated for steps in the purification of a mAb and extrapolated to another mAb purified by the identical process.
Modular Clearance Study – virus clearance is demonstrated on individual purification steps (modules) that … may use different model mAb. Identical modules may be extrapolated to other mAb.
Abbreviated Testing for certain products/studies
Many caveats in applying some of these approaches
For Generic and Modular mAb only applicable to biochemically similar mAb purified by identical methods.
Acceptable for homologous products, however only mAb have meet the necessary criteria.
Basic fundamental and evaluation of the processes being evaluated
Approaches may be acceptable - meet basic tenants of process validation, Consistency, robustness
How close do processing conditions have to be? Used in combination with small scale studies
Assess all sources of variability, worst case scenarioMany caveats in applying some of these approaches
For Generic and Modular mAb only applicable to biochemically similar mAb purified by identical methods.
Acceptable for homologous products, however only mAb have meet the necessary criteria.
Basic fundamental and evaluation of the processes being evaluated
Approaches may be acceptable - meet basic tenants of process validation, Consistency, robustness
How close do processing conditions have to be? Used in combination with small scale studies
Assess all sources of variability, worst case scenario
25. Types of Impurities Product related impurities
Process related impurities
Media components (insulin, transferrin)
Chemical additives (antibiotics, inducing agents)
Leachables (Protein A, resins, heavy metals)
Cell components (HCP & DNA)
26. Mab Original Submission Holds
27. Credits Patrick Swann
Barry Cherney
Kurt Brorson
Keith Webber
Wendy Shores
28. The End No product development was harmed in the making of these slides
29. 21CFR Information for Investigators 312.23(a)(5) Investigator's brochure. If required .. containing the following information:
(i) A brief description of the drug substance and the formulation, including the structural formula, if known.
(ii-v) Information related to safety & efficacy
312.55 … The sponsor shall, as the overall investigation proceeds, keep each participating investigator informed of new observations…
312.32(c) IND safety reports …The sponsor shall notify FDA and all participating investigators in a written IND safety report…
30. Guidances 1. Changes to an Approved Application for Specified Biotechnology and Specified Synthetic Biological Products - Final 7/1997
2. Changes to an Approved NDA or ANDA - Final 4/2004
3. Changes to an Approved NDA or ANA; Specifications - Use of Enforcement Discretion for Compendial Changes - Final 11/2004
4. Comparability Protocols -- Chemistry, Manufacturing, and Controls Information- Draft 2/2003
5. Container Closure Systems for Packaging Human Drugs and Biologics – Final 5/1999
6. Demonstration of Comparability of Human Biological Products, Including Therapeutic Biotechnology-derived Products - Final 4/1996
7. Drug Master Files Current DMF Information - Final 9/1989
8. Environmental Assessment of Human Drug and Biologics Applications – Final 7/1998
31. Guidances 9. Format and Content for the CMC Section of an Annual Report - Final 9/1994
10. INDs for Phase 2 and Phase 3 Studies Chemistry, Manufacturing, and Controls Information - Final 5/2003
11. IND Meetings for Human Drugs and Biologics Chemistry, Manufacturing, and Controls Information - Final 5/2001
12. Interpreting Sameness of Monoclonal Antibody Products Under the Orphan Drug Regulations - Draft 7/1999
13. Monoclonal Antibodies Used as Reagents in Drug Manufacturing - Final 3/2001
14. NDAs: Impurities in Drug Substances - Final 2/2000
15. Submission Documentation for Sterilization Process Validation in Applications for Human and Veterinary Drug Products - Final 11/1994
32. ICH Documents Q1A(R2) Stability Testing of New Drug Substances and Products - Final 11/2003
Q1B Photostability Testing of New Drug Substances and Products - Final 11/1996
Q1C Stability Testing for New Dosage Forms - Final 5/9/1997
Q1D Bracketing and Matrixing Designs for Stability Testing ňfNew Drug Substances and Products - Final 1/2003
Q1E Evaluation of Stability Data - Final 6/2004
Q2A Text on Validation of Analytical Procedures - Final 3/1995
Q2B Validation of Analytical Procedures: Methodology - Final 5/19/1997
Q3A(R) Impurities in New Drug Substances - Final 2/1 0/2003 .
Q3B(R) Impurities in New Drug Products - Final 11/2003
Q3C Impurities: Residual Solvents - Final 12/24/1997
33. ICH Documents Q5B Quality of Biotechnological Products: Analysis of the Expression Construct in Cells Used for Production of-DNA Derived Protein Products - Final 2/1996
Q5C Quality of Biotechnological Products: Stability Testing of Biotechnological/Biological Products - Final 7/1996
Q5D Quality of Biotechnological/Biological Products: Derivation and Characterization of Cell Substrates Used for Production of Biotechnological/Biological Products; Availability - Final 9/21/1998
Q5E Comparability of Biotechnological/iological Products Subject to Changes in their Manufacturing Process - Final 6/2005
Q6A International Conference on Harmonisation; Guidance on Q6A Specifications:Test Procedures and Acceptance Criteria for New Drug Substances and New Drug Products: Chemical Substances - Final 12/29/2000
34. Q6B Specifications: Test Procedures and Acceptance Criteria for Biotechnological/Biological Products - Final 8/1999
Q7 A Good Manufacturing Practice Guidance for Active Pharmaceutical Ingredients - Final 8/2001
Q8(R2) Pharmaceutical Development - Final 8/2009
Q9 Quality Risk Management - Final 96/1/2006
Q10 Quality Systems - 4/8/2009
ICH Documents
35. Relevant Attributes
… those molecular and biological characteristics found to be useful in ensuring the safety and efficacy of the product (ICH Q6B)
Defining those attributes is relevant to:
Risk management
CGMPs for the 21st century
Can these attribute be defined?
Often difficult
Default is to look at many attributes
Importance of biological activity
by appropriate techniques (which includes the determination of physicochemical properties, biological activity, immunochemical properties, purity and impurities)by appropriate techniques (which includes the determination of physicochemical properties, biological activity, immunochemical properties, purity and impurities)
