* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Slide 1
Survey
Document related concepts
Orphan drug wikipedia , lookup
Plateau principle wikipedia , lookup
Polysubstance dependence wikipedia , lookup
Neuropharmacology wikipedia , lookup
Compounding wikipedia , lookup
Drug design wikipedia , lookup
Pharmacogenomics wikipedia , lookup
Pharmaceutical industry wikipedia , lookup
Prescription costs wikipedia , lookup
Pharmacognosy wikipedia , lookup
Prescription drug prices in the United States wikipedia , lookup
Drug discovery wikipedia , lookup
Drug interaction wikipedia , lookup
Transcript
6th Annual Science and Standards Symposium January 16, 2013 Istanbul Determination of Solubility and Permeability in BCS Erika Stippler, Ph.D. Director Dosage Form Performance Laboratory BCS Concept Published by Amidon and co-workers 1995 Biopharmaceutics Classification System is a scientific framework for classifying drug substances based on their aqueous solubility and intestinal permeability The aim is to optimize the development of oral dosage forms relying only on rate limiting factors for absorption Drug Release – The Rate Limiting Step Modern Biopharmaceutics, G.L. Amidon, M. Bermejo 2003 Biopharmaceutical Drug Classification System (BCS) Class I II III IV Solubility High Low High Low Permeability High High Low Low Solubility directly influences the dissolution behavior of oral dosage forms in gastrointestinal tract BCS Solubility: FDA vs. EMA FDA EMA – Solubility profile in the range of pH 1- 7.5 at 37 ± 1 °C – Solubility profile in the range of pH 1- 6.8 at 37 ± 1 °C – At least 3 buffers – At least 3 buffers (1.2, 4.5, 6.8) – At pH=pKa, pH=pKa-1, pH=pKa+1 (where applicable) – At pH=pKa (where applicable) – USP buffers – Buffers not specified (PhEur) – Minimum of 3 replicates – Sufficient number of replicates Solubility Determination Equilibrium solubility (thermodynamic solubility) – Drug dissolved is in equilibrium with solid remaining on the bottom. Kinetic solubility (turbidimetric solubility) – Solubility at time point X. Precipitate present but equilibrium not necessarily reached. Supersaturation and subsaturation possible. Intrinsic solubility – Equilibrium solubility of the free acid or base form of an ionizable compound at a pH where it is fully de-ionized. Solubility Determination: Lab-Method Shake-flask method (thermodynamic solubility) Excess of solid drug exposed to liquid Final assay after established equilibrium between drug dissolving and drug precipitating at 37 °C Takes usually 60 – 72 hours with sampling at earlier time points Sufficient number (n>3 with extrapolation of regression line to yaxis) Standard USP buffer solutions considered to be appropriate pH of supernatant needs to be verified Dose Number function of drug substance solubility D V Do C W ater Solubility Issues D / Vwater >> CS ~ High Do S D / Vwater << CS ~ Low Do BCS Class Boundaries Solubility: Highly soluble drug substance – FDA: the highest dose strength is soluble in 250 mL or less of aqueous media over a pH range of 1 to 7.5, at 37°C ± 1°C – EMA: the highest single dose administered is soluble in 250 mL or less of buffer solutions of pH 1 to 6.8, at 37°C ± 1°C – WHO: the highest dose* is soluble in 250 mL or less of aqueous media pH range of 1.2 to 6.8, at 37°C ± 1°C * highest dose recommended in WHO’s List of Essential Medicines or the highest dose strength available on the market Permeability Determination High permeability – Complete absorption, generally related to high permeability Methodology – Absolute bioavailability: oral BA determination using intravenous administration as a reference – Mass-balance studies: pharmacokinetic mass balance studies using unlabeled, stable isotopes or a radiolabeled drug substance – Intestinal permeability methods: • in vivo intestinal perfusion studies (human/animal) – in vitro permeation studies (excised human/animal tissue) – in vitro permeation studies on cell monolayers (e.g.Caco-2) Absorption Number Effective permeability T P An T T R eff GI GI ABS Residence time in GI Radius of GI Time required for complete absorption Human Permeability vs. Fraction Dose Absorbed Amidon G.L. et al. Pharm Res 1995 12: 413-20 BCS Class Boundaries Permeability Highly permeable drug substance: – FDA: the extent of absorption in humans is greater than 90% of an administered dose – Mass balance – Absolute bioavailability – Intestinal permeability – EMA: the extent of absorption in humans is greater than 85% of an administered dose – Mass balance – Absolute bioavailability – WHO: the extent of absorption in humans is greater than 85% of an administered dose – based on mass-balance – compared with an intravenous reference dose – Alternative methods are accepted Biopharmaceutics Classification System Human Permeability 10 I Gastric emptying determines on-set of absorption II Dissolution likely to be “rate limiting” 1.0 III IV Absorption might be: - incomplete - sensitive to certain excipients 0.1 Generally “problem” molecules 0.01 1 10 100 1000 10000 Volume of water (ml) required to dissolve the highest dose strength at pH 1.2 - 8 100000 Biopharmaceutics Classification System Dissolution number Diffusivity Solubility 3D C Dn r S 2 T T T mg/mL GI GI DISS Residence time in GI Trakt Particle Radius Density Time required for complete dissolution BCS Linked to Dissolution and Absorption Class I – High absorption number – High dissolution number – Rate limiting step is dissolution • If rapid then gastric emptying rate limiting step Class II – High absorption number – Low dissolution number – Rate limiting step is dissolution • Except a very high dose number – IVIVC possible Class III – – – – Low absorption number High dissolution number Rate limiting step is permeability BA not influenced by dosage form but alteration of physiology Class IV – Low absorption number – Low dissolution number – Rate limiting steps both, permeability and dissolution – BA highly variable Extension of the BCS to BDDCS BDDCS: biopharmaceutical drug disposition classification system (according to Wu and Benet 2005) – BCS Class I and II drugs are eliminated primarily via metabolism, whereas Class III and IV drugs are eliminated unchanged via bile or urine – When metabolism is the major route of drug elimination, the drug exhibits high permeation – Extent of metabolism instead of extent of absorption may be used for categorization • e.g. class I: > 90 % metabolized may be substituted for > 90 % absorbed – BDDCS allows for the prediction of transporter-enzyme interactions Dissolution Testing Requirements for in vitro BE FDA EMA WHO Apparatus USP App. 1 USP App. 2 Basket Paddle Basket Paddle Dissolution media 0.1 N HCl or SGF Buffer pH 4.5 Buffer pH 6.8 or SIF Buffer pH 1.0 or SGF Buffer pH 4.5 Buffer pH 6.8 of SIF Buffer pH 1.2 Buffer pH 4.5 Buffer pH 6.8 Use of enzymes is allowed in case of gelatin capsules or gelatin coated tablets Absolutely no addition of surfactant or enzymes is allowed Int. Ph. Buffers are preferred Volume 900 ml 900 ml or less 900 ml or less Temperature 37°C ± 0.5°C 37°C ± 1°C 37°C Agitation Basket: 100 rpm Paddle: 50 rpm alternatives to be justified Basket: 100 rpm Paddle: 50 rpm Basket: 100 rpm Paddle: 75 rpm Sampling time 10, 15, 20, 30 min 10, 15, 20, 30, 45 min 10, 15, 20, 30, 45, 60 min Sample # 12 12 12 Requirements f2 ≥ 50 50 ≤ f2 ≤ 100 50 ≤ f2 ≤ 100 Dissolution Characteristics of IR Drug Products FDA EMA WHO Very rapidly dissolving No definition ≥85%of the labeled amount dissolves in 15 min ≥85%of the labeled amount dissolves in 15 min or less Rapidly dissolving ≥85%of the labeled amount dissolves in 30 min No definition ≥85%of the labeled amount dissolves in 30 min Similarly dissolving (EMA) No definition ≥85%of the labeled amount dissolves between 15 and 30 min No definition Test conditions Paddle at 50 rpm or Basket at 100 rpm in 900 ml or less of 0.1N HCl or SGF Buffer pH 4.5 Buffer pH 6.8 or SIF Paddle at 50 rpm or Basket at 100 rpm in 900 ml or less of 0.1N HCl or SGF Buffer pH 4.5 Buffer pH 6.8 or SIF Paddle at 75 rpm or Basket at 100 rpm in 900 ml or less of Buffer pH 1.2 Buffer pH 4.5 Buffer pH 6.8 FDA-Requirements for BCS-based Biowaiver Immediate release drug products only BCS-Class I drug substance Rapidly dissolving IR drug product Test and reference drug product are pharmaceutically equivalent Test and reference drug product exhibit similar dissolution profiles Exclusions IR drug products considered not to have a narrow therapeutic index Products designed to be absorbed in the oral cavity + Biowaiver with Respect to BSC Classification - FDA I IV III - Permeability II - Solubility + EMA-Requirements for BCS-based Biowaiver Restricted for immediate release drug products considered not to have a narrow therapeutic index Case I – Same drug substance BCS-Class I or different salt both BCS-Class I – either very rapid or rapid in vitro dissolution – Same excipients in similar amounts – Similarity of dissolution profiles Case II – Same drug substance BCS-Class III – very rapid in vitro dissolution – Same excipients in very similar amounts – Similarity of dissolution profiles WHO-Requirements for BCS-based Biowaiver WHO Model List of Essential Medicines immediate release solid oral dosage forms Case 1 – BCS-Class I drugs – very rapidly dissolving drug products (both test and reference) – rapidly dissolving drug products for which similarity of dissolution profiles was demonstrated Case 2 – BCS-Class III drugs – very rapid in vitro dissolution – Same composition regarding excipients in both test and reference WHO-Requirements for BCS-based Biowaiver WHO Model List of Essential Medicines immediate release solid oral dosage forms Case 3 – BCS-Class II compounds with weak acid properties (high solubility at pH 6.8 but not at pH 1.2 or 4.5 and with high permeability) – rapidly dissolving in pH 6.8 (both test and reference) – similar of dissolution profiles for both test and reference product in all three buffer media (pH 1.2, 4.5, and 6.8) – Careful examination of type and amount of surfactant in the formulation II I IV III - Permeability + Biowaiver with Respect to BSC Classification - WHO - Solubility + Selection of the Reference Product The reference product/ comparator – is RLD in the US – is normally the innovator product for which efficacy, safety and quality has been established (EMA) – the selection is made at the national level and should be justified (EMA and WHO) – In case the innovator cannot be identified – WHO comparator product – ICH innovator product – Well selected comparator The assayed content of the batch used as test product should not differ more than 5% from that of the batch used as reference product More than one batch of the reference product should be investigated Example: Amoxicillin Dose strength: US-RLD: 875 mg Europe: common dose 500 mg WHO-LEM: 500 mg (as trihydrate) Solubility: 1 g / 370 ml 875 mg = 324 mL 500 mg = 185 mL BSC Classification: US: Class IV Europe, WHO: Class I Permeability: 89% Dissolution Cases High solubility in both pH 1.2 and 6.8 – Conduct dissolution according to USP-NF <711> in each pH 1.2 and 6.8 – App. 1@100 rpm or App. 2@50 rpm in 900 mL – Q=85% in 30 minutes High solubility in pH 1.2 only – Conduct dissolution according to USP-NF <711> in pH 1.2 – App. 1@100 rpm or App. 2@50 rpm in 900 mL – Q=85% in 15 minutes High solubility in pH 6.8 only – Conduct dissolution according to USP-NF <711> in pH 6.8 – App. 1@100 rpm or App. 2@50 rpm in 900 mL – Q=85% in 15 minutes Low solubility in both pH values – Product specific development needed – Suggestions on surfactant usage could be included Evaluating the results Products that meet the acceptance criteria may be considered: To perform optimally or To be optimally available for in vivo absorption Products that do not meet the acceptance criteria are not necessarily “bad” products, require additional studies to demonstrate proper performance 30 Summary The BCS is the scientific foundation for Biowaivers Biowaivers can be used to approve drug products – SUPAC – Generic drug products Harmonization among different jurisdiction regarding solubility classification is needed Harmonization in selection of a Reference product