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Artemisinin combined medicines, Kampala, February 2009 1 |1 | Training workshop on regulatory requirements for registration of Artemisinin based combined.

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Presentation on theme: "Artemisinin combined medicines, Kampala, February 2009 1 |1 | Training workshop on regulatory requirements for registration of Artemisinin based combined."— Presentation transcript:

1 Artemisinin combined medicines, Kampala, February 2009 1 |1 | Training workshop on regulatory requirements for registration of Artemisinin based combined medicines and assessment of data which are submitted to regulatory authorities Why are bioavailability / bioequivalence studies necessary? An Introduction to Bioequivalence Studies Presented by: Hans Kemmler, Consultant to WHO Accra, 5.Nov. 2008

2 Artemisinin combined medicines, Kampala, February 2009 2 |2 | Background: First Product to Market Innovator’s Product Quality Safety and efficacy –Based on extensive clinical trials –Expensive –Time consuming

3 Artemisinin combined medicines, Kampala, February 2009 3 |3 | Background: Other products with same medicinal ingredient Subsequent-entry products Generic products Multisource products How do these products gain marketing authorization?

4 Artemisinin combined medicines, Kampala, February 2009 4 |4 | Pharmaceutical equivalence Same amount of the same active pharmaceutical ingredient –Salts, esters Same dosage form –Comparable dosage forms –e.g., tablet vs. capsule Same route of administration Is pharmaceutical equivalence enough?

5 Artemisinin combined medicines, Kampala, February 2009 5 |5 | Sometimes pharmaceutical equivalence is enough Aqueous solutions –Intravenous solutions –Intramuscular, subcutaneous –Oral solutions –Otic or ophthalmic solutions –Topical preparations –Solutions for nasal administration Powders for reconstitution as solution Gases

6 Artemisinin combined medicines, Kampala, February 2009 6 |6 | Sometimes it is not enough Pharmaceutical equivalence by itself does not necessarily imply therapeutic equivalence Therapeutic equivalence: –Pharmaceutically equivalent –Same safety and efficacy profiles after administration of same dose

7 Artemisinin combined medicines, Kampala, February 2009 7 |7 | Pharmaceutical Equivalents Possible Differences Drug particle size Excipients Manufacturing Equipment or Process Site of manufacture TestReference Could lead to differences in product performance in vivo

8 Artemisinin combined medicines, Kampala, February 2009 8 |8 | Additional data is required Oral immediate release products with systemic action –Generally required for solid oral dosage forms Critical use Narrow therapeutic range Bioavailability problems associated with the active ingredient Problematic polymorphism, excipient interaction, or sensitivity to manufacturing processes

9 Artemisinin combined medicines, Kampala, February 2009 9 |9 | Additional data is required Oral modified release products with systemic action Fixed dose combination products with systemic action –When at least one component requires study Non-oral / non-parental products with systemic action Non-solution products with non-systemic action

10 Artemisinin combined medicines, Kampala, February 2009 10 | Marketing authorization of multisource products Extensive clinical trials to demonstrate safety and efficacy –Interchangeability? Demonstration of equivalence to reference (comparator) product –Interchangeability –Therapeutic equivalence

11 Artemisinin combined medicines, Kampala, February 2009 11 | Marketing authorization through equivalence Suitable methods for assessing equivalence: –Comparative pharmacokinetic studies –Comparative pharmacodynamic studies –Comparative clinical trials –Comparative in vitro tests

12 Artemisinin combined medicines, Kampala, February 2009 12 | Comparative Pharmacokinetic Studies In vivo measurement of active ingredient “Some” relationship between concentration and safety/efficacy Product performance is the key Comparative bioavailability

13 Artemisinin combined medicines, Kampala, February 2009 13 | Bioavailability The rate and extent to which a substance or its active moiety is delivered from a pharmaceutical form and becomes available in the general circulation.” Reference: intravenous administration = 100% bioavailability

14 Artemisinin combined medicines, Kampala, February 2009 14 | Important Pharmacokinetic Parameters AUC: area under the concentration-time curve  measure of the extent of bioavailability C max : the observed maximum concentration of drug  measure of both the rate of absorption and the extent of bioavailability t max : the time after administration of drug at which C max is observed  measure of the rate of absorption

15 Artemisinin combined medicines, Kampala, February 2009 15 | Plasma concentration time profile C max T max AUC time concentration

16 Artemisinin combined medicines, Kampala, February 2009 16 | Bioequivalence Two products are bioequivalent if they are pharmaceutically equivalent bioavailabilities (both rate and extent) after administration in the same molar dose are similar to such a degree that their effects can be expected to be essentially the same

17 Artemisinin combined medicines, Kampala, February 2009 17 | Bioavailability Absolute bioavailability (F): Relative bioavailability (F rel )

18 Artemisinin combined medicines, Kampala, February 2009 18 | Bioavailability: Same Dose Absolute bioavailability (F): Relative bioavailability (F rel )

19 Artemisinin combined medicines, Kampala, February 2009 19 | Therapeutic Equivalence Therapeutic equivalence: –Pharmaceutically equivalent –Same safety and efficacy profiles after administration of same dose: bioequivalent Interchangeability

20 Artemisinin combined medicines, Kampala, February 2009 20 | Comparative Pharmacodynamic Studies Not recommended when: –active ingredient is absorbed into the systemic circulation – pharmacokinetic study can be conducted Local action / no systemic absorption

21 Artemisinin combined medicines, Kampala, February 2009 21 | Comparative Clinical Studies Pharmacokinetic profile not possible Lack of suitable pharmacodynamic endpoint Typically insensitive

22 Artemisinin combined medicines, Kampala, February 2009 22 | Comparative in vitro Studies May be suitable in lieu of in vivo studies under certain circumstances Requirements for waiver to be discussed

23 Artemisinin combined medicines, Kampala, February 2009 23 | When are bioequivalence studies employed? Multisource product vs. Innovative product Pre-approval changes –Bridging studies Post-approval changes Additional strengths of existing product

24 Artemisinin combined medicines, Kampala, February 2009 24 | Bioequivalence Studies: Basic Design Considerations Minimize variability not attributable to formulations Minimize bias REMEMBER: goal is to compare performance of the two products

25 Artemisinin combined medicines, Kampala, February 2009 25 | “Gold Standard” Study Design Single-dose, two-period, crossover Healthy volunteers Subjects receive each formulation once Adequate washout

26 Artemisinin combined medicines, Kampala, February 2009 26 | Multiple-dose Studies More relevant clinically? Less sensitive to formulation differences

27 Artemisinin combined medicines, Kampala, February 2009 27 | Multiple-dose Studies may be employed when: Drug is too potent/toxic for administration in healthy volunteers –Patients / no interruption of therapy Extended/modified release products –Accumulation using recommended dosing interval –In addition to single-dose studies

28 Artemisinin combined medicines, Kampala, February 2009 28 | Multiple-dose Studies may be employed when: Non-linear pharmacokinetics at steady-state (e.g., saturable metabolism) Assay not sufficiently sensitive for single-dose study

29 Artemisinin combined medicines, Kampala, February 2009 29 | Crossover vs. Parallel Designs Crossover design preferred –Intra-subject comparison –Lower variability –Generally fewer subjects required Parallel design may be useful –Drug with very long half-life –Crossover design not practical

30 Artemisinin combined medicines, Kampala, February 2009 30 | Parallel Design Considerations Ensure adequate number of subjects Adequate sample collection –Completion of Gastrointestinal transit / absorption process –72 hours normally sufficient

31 Artemisinin combined medicines, Kampala, February 2009 31 | Fasted vs. Fed Designs Fasted study design preferred –Minimize variability not attributable to formulation –Better able to detect formulation differences

32 Artemisinin combined medicines, Kampala, February 2009 32 | Fed Study Designs may be employed when: Significant gastrointestinal (GI) disturbance caused by fasted administration Product labeling restricts administration to fed state

33 Artemisinin combined medicines, Kampala, February 2009 33 | Fed Study Design Considerations Fed conditions depend on local diet and customs Dependent on reason for fed design –Avoiding GI disturbance Minimal meal to minimize impact –Required due to drug substance / dosage form Modified-release products Complicated pharmacokinetics Known effect of food on drug substance

34 Artemisinin combined medicines, Kampala, February 2009 34 | Fed Study Design Considerations cont. Fed conditions designed to promote maximal perturbation –High fat –High Calorie –Warm

35 Artemisinin combined medicines, Kampala, February 2009 35 | Replicate vs. non-replicate designs Standard approach –Non-replicated –Single administration of each product –Average bioequivalence

36 Artemisinin combined medicines, Kampala, February 2009 36 | Replicate Designs Typically four-period design –Each product administered twice Intra-subject variability Subject X formulation interaction Different approaches possible –Average bioequivalence –Individual bioequivalence

37 Artemisinin combined medicines, Kampala, February 2009 37 | Replicate Designs Advantages –More information available –Different approaches to assessment possible Disadvantages –Bigger commitment for volunteers –More administrations to healthy volunteers –More expensive to conduct

38 Artemisinin combined medicines, Kampala, February 2009 38 | Discussion Questions Comments Opinions

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