Determination of lamivudine and zidovudine permeability using a different ex vivo method in Franz cells.

INTRODUCTION: The major processes that control the absorption of orally administered drugs are dissolution and gastrointestinal permeation. These processes depend on two main properties: solubility and permeability. Based on these characteristics, the Biopharmaceutical Classification System (BCS) was proposed as a tool to assist in biowaiver and bioavailability prediction of drugs. METHODS: The purpose of the present study was to evaluate the permeability of lamivudine (3TC) and zidovudine (AZT) using a different ex vivo method in Franz cells. A segment of jejunum was inserted in a Franz cells apparatus, in order to assess drug permeability in the apical-basolateral (A-B) and basolateral-apical (B-A) directions. Each drug was added to the donor chamber, collected from the acceptor chamber and analyzed by HPLC. Fluorescein (FLU) and metoprolol (METO) were used as low and high permeability markers, respectively. RESULTS: The apparent permeability (Papp) results for the A-B direction were: Papp FLU A-B=0.54×10(-4)cm·s(-1), Papp METO A-B=7.99×10(-4)cm·s(-1), Papp 3TC A-B=4.58×10(-4)cm·s(-1) and Papp AZT A-B=5.34×10(-4)cm·s(-1). For the B-A direction, the Papp results were: Papp FLU B-A=0.56×10(-4)cm·s(-1), Papp METO B-A=0.25×10(-4)cm·s(-1), Papp 3TC B-A=0.24×10(-4)cm·s(-1) and Papp AZT B-A=0.19×10(-4)cm·s(-1). DISCUSSION: For the A-B direction, the Papp results of fluorescein and metoprolol show low and high permeability, respectively, indicating that the membranes were appropriate for permeability studies. For the A-B direction, the Papp results of 3TC and AZT suggest that these antiretroviral drugs have permeability values close to metoprolol. Nevertheless, for the B-A direction the Papp results do not suggest efflux mechanism for any of the drugs. Thereby, the different ex vivo methods using Franz cells can be successfully applied in drug permeability studies, in particular for drug biopharmaceutical classification.

Equilibrium solubility versus intrinsic dissolution: characterization of lamivudine, stavudine and zidovudine for BCS classification

Solubility and dissolution rate of drugs are of major importance in pre-formulation studies of pharmaceutical dosage forms. The solubility improvement allows the drugs to be potential biowaiver candidates and may be a good way to develop more dose-efficient formulations. Solubility behaviour of lamivudine, stavudine and zidovudine in individual solvents (under pH range of 1.2 to 7.5) was studied by equilibrium solubility and intrinsic dissolution methods. In solubility study by equilibrium method (shake-flask technique), known amounts of drug were added in each media until to reach saturation and the mixture was subjected to agitation of 150 rpm for 72 hours at 37 ºC. In intrinsic dissolution test, known amount of each drug was compressed in the matrix of Wood's apparatus and subjected to dissolution in each media with agitation of 50 rpm at 37 ºC. In solubility by equilibrium method, lamivudine and zidovudine can be considered as highly soluble drugs. Although stavudine present high solubility in pH 4.5, 6.8, 7.5 and water, the solubility determination in pH 1.2 was not possible due stability problems. Regarding to intrinsic dissolution, lamivudine and stavudine present high speed of dissolution. Considering a boundary value presented by Yu and colleagues (2004), all drugs studied present high solubility characteristics in intrinsic dissolution method. Based on the obtained results, intrinsic dissolution seems to be superior for solubility studies as an alternative method for biopharmaceutical classification purposes.

A solubilidade e a taxa de dissolução de fármacos são de grande importância em estudos de pré-formulação de formas farmacêuticas. A melhora na solubilidade permite que os fármacos sejam candidatos potenciais à bioisenção, podendo ser uma boa maneira para desenvolver formulações dose-eficientes. O comportamento de solubilidade da lamivudina, estavudina e zidovudina em solventes individuais (sob faixa de pH 1,2 a 7,5) foi estudado pelos métodos de solubilidade em equilíbrio e dissolução intrínseca. No estudo de solubilidade pelo método do equilíbrio (método de agitação de frascos), conhecidas quantidades do fármaco foram adicionadas em cada meio até atingirem a saturação e a mistura foi submetida à agitação de 150 rpm por 72 horas a 37 ºC. No ensaio de dissolução intrínseca, conhecida quantidade de cada fármaco foi comprimida na matriz do aparato de Wood e submetida à dissolução em cada meio com agitação de 50 rpm a 37 ºC. No método de solubilidade em equilíbrio, a lamivudina e a zidovudina podem ser consideradas como fármacos altamente solúveis. Embora a estavudina apresente alta solubilidade nos meios pH 4,5, 6,8, 7,5 e água, a determinação da solubilidade em pH 1,2 não foi possível devido a problemas de estabilidade. Com relação à dissolução intrínseca, a lamivudina e a estavudina apresentaram alta velocidade de dissolução. Considerando o valor limite apresentado por Yu e colaboradores (2004), todos os fármacos apresentaram características de alta solubilidade no método de dissolução intrínseca. Com base nos resultados obtidos, a dissolução intrínseca parece ser superior para os estudos de solubilidade como um método alternativo para o propósito de classificação biofarmacêutica.