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World Health Organization International Biological Standards

World Health Organization International Biological Standards. Elwyn Griffiths Biologics and Genetic Therapies Directorate. WHO’S BIOLOGICAL STANDARDIZATION PROGRAMME.

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World Health Organization International Biological Standards

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  1. World Health Organization International Biological Standards Elwyn Griffiths Biologics and Genetic Therapies Directorate

  2. WHO’S BIOLOGICAL STANDARDIZATION PROGRAMME • Develops Recommendations (Requirements) and Guidelines on the production and control of specific biologicals (Written standards) • Develops and establishes International Biological Standards and Reference Reagents (Physical standards)

  3. WHO’S BIOLOGICAL STANDARDIZATION PROGRAMME • Work part of Constitution of WHO (1946) • Inherited from League of Nations • International Biological Standardization initiated under League of Nations in 1920s – Commission on Biological Standardization

  4. FIRST BIOLOGICAL • 1890’s Diphtheria antitoxin (Germany) • Tremendous achievement • France successful/ England not • Attributed to “weak sera” • Paul Ehrlich found answer – STANDARD ANTITOXIN PREPARATION - Units • Standard used to calibrate future batches

  5. INSULIN STANDARD • Henry Dale (London) applied concept to insulin and other biologics (1920s) • Banting & Best discovered insulin in Toronto but STANDARDIZATION CRITICAL for clinical usefulness • Need for INTERNATIONAL oversight • INTERNATIONAL STANDARD / INTERNATIONAL UNITS (IU) as measure of “strength” or “activity”

  6. WHO Standard Setting Process • Expert Committee on Biological Standardization (1st meeting 1947) • Biologicals Unit (Quality & Safety of Biologicals/Quality & Safety of Plasma Derivatives) ( Secretariat) • WHO International Laboratories for Biological Standards/ Collaborating Centres

  7. WHO Laboratories and Collaborating Centres • *National Institute for Biological Standards and Control , Potters Bar , UK ( NIBSC) • *Sanquin-Central Laboratory Netherlands Red Cross Blood Transfusion Service ( CLB) • Center for Biologics Evaluation and Research FDA, Bethesda, USA (CBER) * Hold and distribute international standards

  8. Collaboration • Other standard setting bodies eg Council of Europe/European Department for the Quality of Medicines: USP/International Standards Organization (ISO) • National Regulatory Authorities/National Control Laboratories • Scientific Societies/Associations • Manufacturers Associations ( International Federation of Pharmaceutical Manufacturers Associations)

  9. International Standards enable the activity of biological preparations to be expressed in the same way globally mostly in (IUs) International Units Reference Reagents differ from International Standards in the extent of characterisation and intended use not assigned IU’s Interim Types of WHO biological reference materials

  10. Types of WHO biological reference materials • International Reference Panels • Group of reference materials established to collectively aid evaluation of assays or diagnostic tests. • Comply with requirements for WHO reference standards/reagents

  11. Examples of WHO Standards relevant to in vitro diagnostics • HBsAg, subtype adw2 genotype A (33 IU/vial) 2nd IS 2003 • Hep B virus DNA (500,000 IU/vial) 1st IS 1999 • Hep C RNA ( 50,000 IU/vial) 1st IS 1997 • HIV-1 p24 Ag ( 1000 IU/ampoule) 1st Int Ref Reagent 1992 • HIV-1 RNA ( 100,000 IU/vial) 1st IS 1999 • HIV-1 genotype Reference Panel 2003

  12. Biologicals -What’s the Problem? • Special consideration/ challenges • Inherent variability of biological systems, including biological and immunological assays • Potential for microbial contamination • Complex macromolecules/systems

  13. Biologicals –What’s the Problem? • Cannot be adequatelycharacterised by chemical and/or physical means alone • Used in prophylaxis, therapy or diagnosis of human diseases (in vitro diagnostics)

  14. WHO biological reference materials • Play a vital role in facilitating transfer of laboratory science into worldwide clinical practice • Contribute to development and on going use of safe and effective biologicals and reliable diagnostics

  15. Use of WHO International Reference Materials • Form basis of quality control, regulation and clinical dosing for biological medicines • Form basis of quality control and regulation of in vitro diagnostic devices

  16. Biotechnology Derived Products • Past 20 years seen explosion in molecular biology/novel bioproduction methods • Opened new possibilities for disease diagnosis/treatment /prevention • Cutting - edge of biomedical research • Economically fastest growing sector in pharmaceuticals

  17. Regulatory Developments in standardisation • International Standards Organisation developed written standards for establishment of reference materials • European Commission adopted ISO standards for in vitro diagnostic devices • Implications for WHO biological reference preparations

  18. Regulatory Developments in standardisation • Issue - extent to which principles for characterization of reference materials in other fields can be applied to biological reference materials • Much debated.

  19. ISO requirements for reference materials • Apply to ALL reference materials , chemical and biological, • Following ISO/WHO discussions recognized biologicals “different” • Biological standards were not considered “primary” standards because could not meet all metrological principles – confusion

  20. ISO requirements for reference materials • Metrological principles - primary standards established in SI units • Single method • Measurement uncertainty • Commutability • Traceability to previous standard • DOES NOT MAKE SENSE FOR ALL BIOLOGICAL SITUATIONS

  21. Biological Situation • Many biologicals exist in both active and inactive states in plasma • Activity (IU) rather than content (mol) may better reflect the clinical situation • Calibration in less precise biological units (IU) more appropriate than calibration in more precise, but clinically irrelevant SI units

  22. Biological Situation • Conversely, situations exists where measurement of inactive or total (active plus inactive) analyte (mol) may be more clinically relevant than activity (IU)

  23. ISO requirements for reference materials • Placed WHO standardization activities outside accepted metrological principles • Made compliance with some external requirements (eg EU in vitro diagnostic devices directive) problematic

  24. International Consultations – on in vitro diagnostics • WHO worked with ISO, other standard setting bodies, regulatory authorities, scientific community and users • Through series of consultations reviewed scientific basis for the preparation and characterization of biological reference materials.

  25. International Consultations – on in vitro diagnostics • WHO Consultation on Global Measurement Standards and their use in the in vitro Biological Diagnostic Field June 2004

  26. International Consultations – on in vitro diagnostics • Re-affirmation that concepts used by WHO for biological standardization still appropriate • Re-affirmation of the continued need and usefulness of this class of reference materials • Need for improved clarity in explaining principles used to establish WHO International Standards

  27. Preparation, characterisation and establishment of WHO biological reference preparations • Guidelines in WHO Technical Report Series,1978, revised in 1986 ,1990. • Have now been updated taking into consideration recent developments and need for improved clarity • Adopted as Recommendations by Expert Committee on Biological Standardization, November 2004

  28. Recommendations not Guidelines • For Preparation, Characterization and Establishment of International and other Biological Reference Standards • Comprehensive document • As usual considerable consultation in their development

  29. NewRecommendations • Choice of unit ( IU/SI /none ) - should be based on the biological, medical and physicochemical information available on a case-by-case basis • Where it is appropriate for WHO biological standard to be calibrated in SI units, principles of ISO 17511 to be followed

  30. NewRecommendations • Deal with number of Issues/principles such as: Methods – single or multiple Measurement uncertainty Commutability in vitro diagnostics field (deals with matrix issues) Traceability Definitions

  31. NewRecommendations • Sections include - Quality Assurance Treatment of bulk liquid Quality of final containers Freeze drying Characterization / Stability International collaborative studies Use

  32. NewRecommendations • WHO biological standards cover a broad range of uses • range of options should continue to be used in their characterisation.

  33. NewRecommendations • Essential to define the intended use of a standard prior to initiation of studies - aids in design the studies to characterise the material and in the eventual value assignment to the material.

  34. Assessment of need formalized • Not all requests for development of international standards are appropriate. • Need to assess priority in establishing International Standards/Reference materials • Decision tree developed ( Appendix 1) • ECBS is the decision making body, but with advice from other bodies and consultations eg SoGAT

  35. European Commission – Common Technical Document • Clarification of process and background to development and establishment of WHO International Standards • Enabled EC to adopt WHO International Standard for Hepatitis B ( calibrated in IU) as the standard required to fulfil Common Technical Document

  36. European Commission – Common Technical Document • Legally binding in EC • Further collaboration with the EC on going regarding adoption of other WHO International Standards for in vitro diagnostics.

  37. Keeping Pace with Developments • WHO needs to keep pace with developments in all biologicals fields • SoGAT valuable venue to discuss scientific developments in NAT assays, to look to the future and to support the work of the ECBS

  38. WHO Biologicals Field • Information re WHO activities in biologicals field found on internet : • www.who.int / biologicals • www. who.int / bloodproducts/en/ • Catalogue of International Standards and Reference Reagent on line

  39. WHO Consultation June 2003 • Review the scientific basis for preparation and characterisation of WHO biological reference materials • review a draft revision of the WHO guidelines • make recommendations to WHO to ensure that WHO biological reference materials retain the widest acceptance of fitness of purpose

  40. prEN/ISO 17511 WHO • WHO guidelines produce standards: • calibrated in a multi-method study (rather than a single, reference method) • With values assigned in International units (rather than mg/ml) • With no imprecision assigned to the ampoule content • Calibration of standards (prEN/ISO • 17511) requires: • Single method studies (conventionally agreed or, • where possible reference method) • SI units rather than IU (where possible) • Traceability to previous standard, with defined uncertainty

  41. Method bias, and single method vs multi method calibration Calibration of the current International Reference Preparation for TSH Deviation of any assay result from the mean is composed of two elements; the assay imprecision, and the bias: The WHO multi-method approach, by including all assays, seeks to average out, and therefore eliminate the bias effect. The WHO approach will provide an estimate which is “accurate” but not “precise” The “reference-method approach will provide an estimate which may be “precise”, but not “accurate”

  42. Single or multi-method calibration studies • June 2003 consultation: “the choice of method depends on whether the most important consideration is metrological to minimise imprecision, in which case a single method should be used, or is biological to achieve a “true” overall value, in which case multiple methods should be used”.

  43. To measure in activity (IU) or content (SI units)? • Many biologicals exist in both active and inactive states in plasma, where the activity (IU) rather than content (mol) reflects the clinical situation of the patient. Calibration in less precise biological units would hence be more appropriate than calibration in more precise, clinically irrelevant SI units • Conversely, situations exists where measurement of inactive or total (active plus inactive) analyte (mol) may be more clinically relevant that activity (IU)

  44. The case of the drifting hepatitis B nanogram • The 1st HBsAg IS was assigned an IU value • Used to calibrate immonoassays • Some users also assigned a ng value • A recent WHO collaborative study showed differences between ng assignments of some secondary standards

  45. Drift in the HBsAg “ng”

  46. Choice of units • June 2003 consultation “the choice of unit should be based on biological, medical and physico-chemical criteria and not by perceived metrological status”

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