In Vitro Dissolution Kinetics of Amlodipine Tablets Marketed in Russia Under Biowaiver Conditions

A biowaiver means that in vivo bioavailability and/or bioequivalence studies may be waived (not considered necessary for product approval). Instead of conducting expensive and time consuming in vivo studies, a dissolution test could be adopted as the surrogate basis for the decision as to whether the two pharmaceutical products are equivalent. The biowaiver approach based on BCS is intended to replace bioequivalence in vivo studies. The aim of the study was to study dissolution kinetics of amlodipine tablets in order to assess their equivalence under conditions in vitro according to the biowaiver. The study of dissolution kinetics of drugs in the form of amlodipine tablets has been carried out in accordance with the requirements of the “biowaiver” procedure, the recommendations of the SPhU and the WHO requirements in order to assess the possibility of replacing the pharmacokinetic studies in vivo by tests in vitro. The possibility to use the recommendations of the "biowaiver" procedure for the registration of generics amlodipine tablets has been found. The studies conducted have shown that amlodipine can be referred to class І of the biopharmaceutical classification system, i.e. substances with a high biopharmaceutical solubility and a high penetration rate. It will allow conducting comparative studies in vitro to confirm the equivalence of drugs. The evaluated amlodipine drugs fulfill biowaiver criteria for drugs containing BCS Class I active pharmaceutical ingredients. Both drugs are “rapidly dissolving,” both meet the criteria of dissolution profile similarity, f2 (i.e., the dissolution profile of the test product is similar to that of the reference product in pH 1.2, 4.5, and 6.8 buffers using the paddle method at 75 rpm), and both are considered to be in vitro equivalent without in vivo evaluation. The proposed chromatographic methods are simple, rapid and accurate for the determination of amlodipine in pharmaceutical dosage forms and can be used for routine quality control of drugs and in vitro dissolution study.

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In Vitro Dissolution Kinetics of Captopril from Microspheres Manufactured by Solvent Evaporation

Dissolution Technologies ◽

10.14227/dt190112p42 ◽

2012 ◽

Vol 19 (1) ◽

pp. 42-51 ◽

Cited By ~ 4

Author(s):

Sandile M. Khamanga ◽

Roderick B Walker

Keyword(s):

Dissolution Kinetics ◽

Solvent Evaporation ◽

In Vitro Dissolution ◽

Kinetics Of

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Development and Validation of an Eco-friendly HPLC-UV-DAD Method for the Determination of Allopurinol in Pharmaceuticals with Application to In vitro Dissolution Studies

Biointerface Research in Applied Chemistry ◽

10.33263/briac115.1308913101 ◽

2021 ◽

Vol 11 (5) ◽

pp. 13089-13101

Keyword(s):

Factorial Design ◽

Matrix Effects ◽

Dissolution Kinetics ◽

In Vitro Dissolution ◽

Dissolution Test ◽

Dissolution Studies ◽

Dissolution Tests ◽

Development And Validation

In this study, a sustainable HPLC-UV-DAD method was developed and validated for the determination of allopurinol in tablets and optimization of the dissolution test using factorial design. The separation of the analyte from the sample matrix was achieved in 3.01 minutes in a C8 column (4.6 mm X 150 mm X 5 μm), using mobile phase 0.1 mol L-1 HCl (25%) + ethanol (50%) + ultrapure water (25%) by UV detection at 249 nm. The method presented satisfactory analytical parameters of validation (specificity, selectivity, linearity, stability, precision, accuracy, and robustness), showing no matrix effects. The dissolution test was optimized by complete factorial design 23 and, the optimal conditions were: HCl 0.001 mol L-1, apparatus II (paddle) and 75 rpm. The analytical procedures and dissolution tests were applied to allopurinol tablets marketed in Bahia, Brazil, to evaluate the dissolution studies. The pharmaceuticals had similar dissolution profiles and first-order dissolution kinetics. This new and sustainable HPLC-UV-DAD method is friendly to the environment and can be used for the routine pharmaceutical analysis of allopurinol in fixed dosage forms.

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Assessment of in Vitro Comparative Dissolution Kinetics of Moxonidine Products as a Factor Potentially Determining Effectiveness of Antihypertensive Treatment

Rational Pharmacotherapy in Cardiology ◽

10.20996/1819-6446-2018-14-6-951-957 ◽

2019 ◽

Vol 14 (6) ◽

pp. 951-957

Author(s):

G. V. Ramenskaya ◽

I. E. Shokhin ◽

N. I. Gaponova ◽

V. R. Abdrakhmanov

Keyword(s):

Generic Drugs ◽

Dissolution Kinetics ◽

Acetate Buffer Solution ◽

Medicinal Products ◽

Buffer Solution ◽

Reference Drug ◽

Similarity Factor ◽

Kinetics Of ◽

Comparative Dissolution

Aim. Investigation of comparative dissolution kinetics of generic medicinal products containing moxonidine versus reference drug. Material and methods. Objects of the research were film-coated tablets containing moxonidine (INN) in a dose 0.4 mg: a reference drug Physiotens® and 4 generic drugs. In vitro dissolution test of moxonidine from the study drugs was performed using comparative dissolution kinetics test (CDKT). The CDKT was performed in the media with the following pH: 1.2 (1:9 mixture of 0.1 M hydrochloric acid and water), 4.5 (acetate buffer solution, prepared as per State Pharmacopoeia, XIII), and 6.8 (phosphate buffer solution, prepared as per State Pharmacopoeia, XIII). The sampling for dissolved moxonidine was performed 5, 10, 15, 20, and 30 min after the test was started. An high performance liquid chromatography method with ultraviolet detection at 220 nm was used to assay. Results. Within 15 min more that 85% of moxonidine dissolved from the reference drug and all study drugs at pH 1.2; dissolution profiles were similar without calculation of similarity factor f2. Similarly, at pH 4.5 dissolution profiles of study drugs #2 and #3 were similar to that of the reference drug, and the similarity factor f2 was not calculated. However, in case of study drugs #1 and #4 significant differences were observed at a single time point (15 min), which suggests that their dissolution profiles are non-similar to that of the reference drug. Similarity factors f2 were calculated 17.52 and 35.30, respectively (less than 50). At pH 6.8 similarity factors f2 for all study generic drugs were also less than 50 (23.8, 49.8, 38.6, and 35.9), so their dissolution curves were non-similar to that of reference drug. Conclusion. In our study we observed difference in release in vitro of medicinal products containing moxonidines: none of the study drugs was fully similar to the reference drug in all media. The differences observed at pH 6.8 were noteworthy, where the samples had or faster kinetics (study drugs #2 and #3), or slower dissolution kinetics (test drugs #1 and #4). Observed differences in moxonidine release rate may impact absorption of active pharmaceutical ingredient into the blood following drug administration.

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Dissolution kinetics of glass fibres in saline solution: in vitro persistence of a sparingly soluble aluminium-rich leached layer

Journal of Materials Science ◽

10.1007/bf00356707 ◽

1995 ◽

Vol 30 (22) ◽

pp. 5691-5699 ◽

Cited By ~ 5

Author(s):

P. Baillif ◽

B. Chouikhi ◽

L. Barbanson ◽

J. C. Touray

Keyword(s):

Saline Solution ◽

Dissolution Kinetics ◽

Glass Fibres ◽

Kinetics Of

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Investigation of certain varieties of carbopol in ketorolac tromethamine hydrophilic matrix tablet formulations and evaluation of the kinetics of its in vitm release

Scientia Pharmaceutica ◽

10.3797/scipharm.aut-02-20 ◽

2002 ◽

Vol 70 (2) ◽

pp. 189-198

Author(s):

Genç Lütfi ◽

Hegazy Nahed ◽

Arica Betül

Keyword(s):

Release Kinetics ◽

In Vitro Release ◽

Controlled Drug Release ◽

Matrix Tablets ◽

In Vitro Dissolution ◽

Matrix Tablet ◽

Compression Technique ◽

Tablet Formulations ◽

Kinetics Of

Matrix tablets of ketorolac trometharnine (KT) were prepared by direct compression technique and Carbopol 934, 940 and 1342 have been used as polymers in different concentrations (5-15 % ). For the quality control of tablets; physical tests as crushing strength, diameter-height ratio and fkiability, KT amount assay and in vitro dissolution techniques were performed and dissolution profiles were plotted and evaluated kinetically. The in vitro release kinetics of ten different formulations of KT matrix tablet were studied at pH 1.2 and pH 7.0 using the USP dissolution technique and apparatus with basket assembly. Dissolution results were evaluated kinetically and statistically. According to our results, different types and concentrations of carbopol to tablet formulations may effect in controlled drug release.

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