Development and validation of RP-HPLC method for simultaneous determination of lamivudine, stavudine, and zidovudine in perfusate samples: Application to the Single-Pass Intestinal Perfusion (SPIP) studies

A reversed-phase high performance liquid chromatography (RP-HPLC) method with ultraviolet detection was developed and validated for the simultaneous quantification of antiretroviral drugs lamivudine (3TC), stavudine (d4T), and zidovudine (AZT) in perfusate samples obtained from the Single-Pass Intestinal Perfusion studies. The chromatographic analysis was performed using a Gemini C18 column and didanosine as internal standard (IS). The following parameters were considered for the validation procedure: system suitability, accuracy, precision, linearity and selectivity. The limits of detection were 0.32 µg/mL for 3TC, 0.11 µg/mL for d4T and 0.45 µg/mL for AZT and the limits of quantification were 1.06 µg/mL for 3TC, 0.38 µg/mL for d4T and 1.51 µg/mL for AZT. Repeatability and intermediate precision ranged from 1.05 to 1.31 and 1.50 to 1.87, respectively, and are expressed as percent of relative standard deviation (RSD). Based on these results, the developed and validated RP-HPLC method can be used for simultaneous determination of 3TC, d4T, and AZT in perfusate samples. Furthermore, this method is simple and adequate for measurements of the antiretroviral drugs in the same sample, since those compounds are mostly co-administered. Besides, this work can be used as an initial base for the development of similar methods in the same conditions presented in our study.

In Situ Intestinal Perfusion in Rodents: Future Perspectives for Application on Absorption Studies and Classification of Drugs.

BACKGROUND: In 1995, the Biopharmaceutics Classification System (BCS) was proposed by Amidon and colleagues as a tool that considers two important parameters regarding drugs: solubility and permeability. Since then, several methods for solubility and permeability studies have been developed for drug delivery and absorption prediction. In recent years, permeability has gained a great highlight and the interaction between a molecule and a biological membrane is not enough to predict the in vivo behavior of a compound. METHOD: Thus, different methods for permeability assessment are currently used for mechanistic studies including involvement of carriers and several transport pathways. Furthermore, the investigation regarding metabolism has been a focus in recent researches. Based on this idea, Wu and Benet proposed a new tool called Biopharmaceutics Drug Disposition Classification System (BDDCS), where drugs are classified into four classes considering their solubility and metabolism. RESULTS: Among several methods for permeability studies, the in situ intestinal perfusion is considered the closest to in vivo conditions due advantages as intact blood supply and innervation. CONCLUSION: This review presents the in situ intestinal perfusion model and its application for permeability/ transport studies of drugs and intestinal metabolism. Also, this paper discusses about how the in situ perfusion studies can be used for classification of drugs and the future perspectives for in vivo absorption prediction.

Avaliação dos mecanismos envolvidos na permeabilidade de fármacos antirretrovirais por meio dos modelos ex vivo ( células de Franz ) e in vitro ( PAMPA ) / Evaluation of mechanisms involved in the permeability of antiretroviral drugs through ex vivo ( Franz cells ) and in vitro ( PAMPA ) models

Para fármacos administrados por via oral, o controle da extensão e da velocidade de absorção depende basicamente de duas importantes etapas: solubilidade do fármaco nos líquidos fisiológicos e sua permeabilidade através das membranas biológicas. Assim, o Sistema de Classificação Biofarmacêutica (SCB) foi proposto como uma ferramenta para o desenvolvimento de novos fármacos, de novas formulações e para auxiliar nos processos de bioisenção. No entanto, outro fator relacionado à biodisponibilidade e que deve ser considerado nos estudos biofarmacêuticos é o metabolismo. Desta forma, o Sistema de Classificação Biofarmacêutica de Distribuição de Fármacos (SCBDF) foi proposto com a finalidade de classificar os fármacos de acordo com suas características de solubilidade e de metabolismo de modo que seja possível avaliar e predizer o comportamento do fármaco in vivo. O metabolismo tem sido amplamente investigado, sobretudo as enzimas do citocromo P450, as quais estão presentes também nos enterócitos. Além disso, o SCBDF oferece um suporte quanto à avaliação dos mecanismos de permeabilidade envolvidos nos processos de absorção, interações fármaco-fármaco e interações fármaco-alimento. Assim, o presente trabalho teve como objetivo elucidar os mecanismos envolvidos na permeabilidade de fármacos antirretrovirais por meio dos modelos ex vivo (câmaras de difusão vertical tipo Franz) e in vitro (PAMPA, MDCK-MDR1 e microssomas) considerando os aspectos relacionados ao metabolismo intestinal e ao efluxo destes fármacos. Dada a importância da utilização de fármacos antirretrovirais na terapia medicamentosa contra a Síndrome da Imunodeficiência Adquirida (SIDA) e que estes medicamentos são normalmente administrados cronicamente, a compreensão dos mecanismos envolvidos na permeabilidade é de suma importância, uma vez que estes não estão totalmente esclarecidos e poucas informações são encontradas na literatura. Além disso, a biodisponibilidade de fármacos como estavudina, lamivudina e zidovudina indica variação na permeabilidade, necessitando de uma investigação científica mais aprofundada dos processos absortivos. Assim, segmentos de jejuno provenientes de ratos machos Wistar foram utilizados para a avaliação da permeabilidade intestinal dos referidos antirretrovirais considerando a avaliação de efluxo pela glicoproteína-P e o metabolismo intestinal pela CYP3A. De maneira complementar, estudos in vitro com o emprego de membranas artificiais paralelas (PAMPA) e culturas celulares de MDCK-MDR1 foram realizados com a finalidade de auxiliar na elucidação dos mecanismos de permeabilidade dos fármacos antirretrovirais. Além disso, a avaliação do metabolismo dos referidos fármacos foi realizada com o emprego de microssomas a fim de verificar se tais substâncias são substratos de enzimas da família CYP3A e, assim, verificar o impacto do metabolismo intestinal na absorção. Os resultados de permeabilidade obtidos em PAMPA foram: 0,74±0,11 x 10-6 cm/s para a estavudina, 0,25±0,12 x 10-6 cm/s para a lamivudina e 1,14±0,25 x 10-6 cm/s para a zidovudina. Já no modelo ex vivo com o emprego de câmaras de difusão vertical tipo Franz, os resultados foram: 1,56±0,32 x 10-5 cm/s para a estavudina, 1,26±0,27 x 10-5 cm/s para a lamivudina e 2,54±0,49 x 10-5 cm/s para a zidovudina. Portanto, com base nos resultados obtidos a partir dos dois métodos empregados, sugere-se que 30 outro mecanismo de transporte que não envolva a permeabilidade por difusão transcelular passiva possa estar relacionado à permeabilidade dos fármacos antirretrovirais. Com relação aos estudos de efluxo, os resultados obtidos a partir dos experimentos realizados em câmaras de difusão vertical tipo Franz demonstraram o aumento significativo da permeabilidade dos três antirretrovirais quando o inibidor de P-gp foi empregado, sendo: de 15,6 x 10-6 para 42,5 x 10-6 cm/s para a estavudina, de 12,6 x 10-6 para 37,5 x 10-6 cm/s para a lamivudina e de 25,4 x 10-6 para 56,6 x 10-6 cm/s para a zidovudina. Em culturas celulares MDCK-MDR1, os resultados de permeabilidade foram utilizados para a obtenção das razões entre as direções B→A e A→B. Os valores de Papp na condição inibida para os fármacos estudados apresentaram razão menor do que 1. Já a razão B→A/A→B para cada fármaco nos ensaios sem inibidor apresentou-se igual ou maior que 2, evidenciando a interação fármaco-transportador. Com base nisso, o modelo ex vivo com o emprego de segmentos intestinais em câmaras de difusão vertical tipo Franz apresentou-se adequado na avaliação do mecanismo de efluxo dos fármacos antirretrovirais, o que foi confirmado com os estudos realizados em MDCK-MDR1. Assim, os fármacos antirretrovirais estudados apresentaram interação significativa com a P-gp. Em relação aos estudos de metabolismo realizados em câmaras de difusão vertical tipo Franz, os resultados demonstraram grande variação na permeabilidade dos três antirretrovirais quando o inibidor de CYP3A foi empregado, sendo: de 15,6 x 10-6 para 23,5 x 10-6 cm/s para a estavudina, de 12,6 x 10-6 para 27,3 x 10-6 cm/s para a lamivudina e de 25,4 x 10-6 para 40,5 x 10-6 cm/s para a zidovudina. Já no modelo que emprega microssomas, os resultados de metabolização na ausência e na presença de inibidor de CYP3A foram: de 16,56% para 19,79% para a estavudina, de 14,56% para 15,55% para a lamivudina e de 17,85% para 16,48% para a zidovudina. Com base nisso, sugerese o emprego de microssomas para a determinação de metabolismo, uma vez que o método ex vivo empregado demonstrou grande variação entre os valores obtidos. Desta forma, observou-se que, para cada fármaco, não houve influência significativa no metabolismo pré-sistêmico relacionado às enzimas do complexo CYP3A, o que indica que a absorção oral das referidas substâncias não é limitada por tais enzimas. Portanto, a utilização dos diferentes métodos empregados no desenvolvimento do presente trabalho permitiu compreender os mecanismos envolvidos no transporte dos fármacos antirretrovirais, o que se torna de grande relevância nas etapas de desenvolvimento farmacêutico de novas moléculas e na compreensão de eventos clínicos ainda não esclarecidos atualmente

For orally administered drugs, control of the extent and rate of absorption depends on two important steps: solubility of the drug in physiological liquids and their permeability across biological membranes. Thus, the Biopharmaceutics Classification System (BCS) has been proposed as a tool for the development of new drugs, new formulations and aid in the biowaiver processes. However, another factor related to bioavailability that should be considered in biopharmaceutic studies is the metabolism. Thus, the Biopharmaceutics Drug Disposition Classification System (BDDCS) has been proposed for drug classification according to their solubility and metabolism characteristics, so it is possible to evaluate and predict the in vivo behavior of a compound. Metabolism has been extensively investigated, especially cytochrome P450 enzymes, which are also expressed in enterocytes. Besides, BDDCS provides support in evaluating the permeability mechanisms involved in the absorption processes, drug-drug interactions and drug-food interactions. Thus, the present study aimed to evaluate the mechanisms of permeability of antiretroviral drugs through the ex vivo (Franz cells) and in vitro (PAMPA, MDCK-MDR1 and microsomes) models considering aspects related to the intestinal metabolism and efflux of these drugs. Given the importance of the use of antiretroviral drugs in drug therapy against Acquired Immune Deficiency Syndrome (AIDS) and that these drugs are usually administered in a long-term way, understanding the mechanisms involved in the permeability is of a great importance, since they are not totally elucidated and no information is found in the literature. In addition, drugs as stavudine, lamivudine and zidovudine indicate variation in the permeability, which require further scientific investigation of absorptive processes. Thus, jejunum segments from rats were used to evaluate the intestinal permeability of these antiretroviral drugs, considering the evaluation of efflux by P-glycoprotein and intestinal metabolism by CYP3A. In a complementary manner, in vitro studies using parallel artificial membranes (PAMPA) and cell cultures MDCK-MDR1 were performed to aid in the elucidation of the permeability mechanisms of antiretroviral drugs. Also, the evaluation of the metabolism was carried out using microsomes to verify if such substances are substrates of CYP3A, and verify the impact of the intestinal metabolism in the absorption. The permeability results obtained in PAMPA were: 0.74±0.11x10-6 cm/s for stavudine, 0.25±0.12x10-6 cm/s for lamivudine and 1.14±0.25x10-6 cm/s for zidovudine. In ex vivo method using the intestinal segments in Franz cells, the results were: 1.56±0.32x10-5 cm/s for stavudine, 1.26±0.27x10-5 cm/s for lamivudine and 2.54±0.49x10-5 cm/s for zidovudine. Thus, based on the results obtained from these two methods, it is suggested that the antiretroviral drugs present other transport mechanism that is different from transcellular passive diffusion. For efflux studies, results obtained from experiments performed in Franz cells shown the increase of the permeability of the three antiretroviral drugs when the P-gp inhibitor was used: from 15.6x10-6 to 42,5x10-6 cm/s for stavudine, from 12.6x10-6 cm/s to 37.5x10-6 cm/s for lamivudine, and 25.4x10-6 to 56.6x10-6 cm/s for zidovudine. In MDCK-MDR1, the permeability results were used for obtaining ratio values between the directions B→A and A→B. The Papp values obtained with 33 inhibitor shown a ratio less than 1. For ratio B→A/A→B for each drug in experiments without inhibitor, the values obtained was equal or greater than 2, which shows the interaction between drug and transporter. Based on that, the ex vivo model using intestinal segments in Franz cells seems to be adequate for evaluation of efflux mechanism of antiretroviral drugs, which was confirmed by MDCK-MDR1 studies. Thus, the antiretroviral drugs presented interaction with P-gp. For metabolism studies in intestinal segments in Franz cells, a wide range of standard deviation was observed for the three antiretroviral drugs when the CYP3A inhibitor was used: from 15.6x10-6 cm/s to 23.5x10-6 cm/s for stavudine, from 12.6x10-6 cm/s to 27.3x10-6 cm/s for lamivudine, and from 25.4x10-6 cm/s to 40.5x10-6 cm/s for zidovudine. In experiments in microsomes, the results of metabolization in the absence and presence of CYP3A inhibitor were: from 16.56 to 19.79% for stavudine, from 14.56 to 15.55% for lamivudine and from 17.85 to 16.48% for zidovudine. Based on that, it is suggested the use of microsomes for metabolism evaluation, since the ex vivo method presented high variability between the results obtained. For each drug, no significative influence in pre-systemic metabolism related to CYP3A enzymes was observed, which indicates that the oral absorption of the drugs is not limited by these enzymes. The use of different methods in this work allowed to understand the mechanisms involved in the transport of antiretroviral drugs, which is of a great relevance in drug development and in the understanding of clinical events currently not clarified

Solubility evaluation of didanosine: a comparison between the equilibrium method and intrinsic dissolution for biopharmaceutics classification purposes

ABSTRACT BCS (Biopharmaceutics Classification System) and BDDCS (Biopharmaceutics Drug Disposition Classification System) were proposed as tools for classifying drugs into four categories. Both systems consider the solubility as an important characteristic for the classification of compounds in drug development and in vivo disposition prediction. Although some results of drug solubility can be found in the literature, the aforementioned characteristic is not entirely clear when considering didanosine (ddI). Based on that, the solubility of ddI was evaluated using equilibrium and intrinsic dissolution methods. For the equilibrium method, excess amount of ddI was added to each media until obtaining a supersaturated solution and the mixture was submitted to agitation at 37 °C. For the intrinsic dissolution method, the drug was compressed into the Wood's apparatus matrix and subjected to dissolution in each media with agitation at 37 °C. The results obtained from the equilibrium method indicated that it was necessary 139.37 mL of pH 1.2 media, 87.72 mL of pH 4.5 media, 12.54 mL of pH 6.8 media, 5.03 mL of pH 7.5 media and 7.65 mL of purified water for drug solubilization. Furthermore, a very fast intrinsic dissolution rate (IDR) was obtained for each media: 0.1 mg/min/cm² (pH 1.2), 0.2 mg/min/cm² (pH 4.5), 0.2 mg/min/cm² (pH 6.8), 0.1 mg/min/cm² (pH 7.5) and 0.1 mg/min/cm² (purified water). Based on these results, ddI can be considered as a highly soluble drug for both equilibrium and intrinsic dissolution methods.

Avaliação dos mecanismos envolvidos na permeabilidade de fármacos antirretrovirais por meio dos modelos ex vivo (células de Franz) e in vitro (PAMPA) / Evaluation of mechanisms involved in the permeability of antiretroviral drugs through ex vivo (Franz cells) and in vitro (PAMPA) models

Para fármacos administrados por via oral, o controle da extensão e da velocidade de absorção depende basicamente de duas importantes etapas: solubilidade do fármaco nos líquidos fisiológicos e sua permeabilidade através das membranas biológicas. Assim, o Sistema de Classificação Biofarmacêutica (SCB) foi proposto como uma ferramenta para o desenvolvimento de novos fármacos, de novas formulações e para auxiliar nos processos de bioisenção. No entanto, outro fator relacionado à biodisponibilidade e que deve ser considerado nos estudos biofarmacêuticos é o metabolismo. Desta forma, o Sistema de Classificação Biofarmacêutica de Distribuição de Fármacos (SCBDF) foi proposto com a finalidade de classificar os fármacos de acordo com suas características de solubilidade e de metabolismo de modo que seja possível avaliar e predizer o comportamento do fármaco in vivo. O metabolismo tem sido amplamente investigado, sobretudo as enzimas do citocromo P450, as quais estão presentes também nos enterócitos. Além disso, o SCBDF oferece um suporte quanto à avaliação dos mecanismos de permeabilidade envolvidos nos processos de absorção, interações fármaco-fármaco e interações fármaco-alimento. Assim, o presente trabalho teve como objetivo elucidar os mecanismos envolvidos na permeabilidade de fármacos antirretrovirais por meio dos modelos ex vivo (câmaras de difusão vertical tipo Franz) e in vitro (PAMPA, MDCK-MDR1 e microssomas) considerando os aspectos relacionados ao metabolismo intestinal e ao efluxo destes fármacos. Dada a importância da utilização de fármacos antirretrovirais na terapia medicamentosa contra a Síndrome da Imunodeficiência Adquirida (SIDA) e que estes medicamentos são normalmente administrados cronicamente, a compreensão dos mecanismos envolvidos na permeabilidade é de suma importância, uma vez que estes não estão totalmente esclarecidos e poucas informações são encontradas na literatura. Além disso, a biodisponibilidade de fármacos como estavudina, lamivudina e zidovudina indica variação na permeabilidade, necessitando de uma investigação científica mais aprofundada dos processos absortivos. Assim, segmentos de jejuno provenientes de ratos machos Wistar foram utilizados para a avaliação da permeabilidade intestinal dos referidos antirretrovirais considerando a avaliação de efluxo pela glicoproteína-P e o metabolismo intestinal pela CYP3A. De maneira complementar, estudos in vitro com o emprego de membranas artificiais paralelas (PAMPA) e culturas celulares de MDCK-MDR1 foram realizados com a finalidade de auxiliar na elucidação dos mecanismos de permeabilidade dos fármacos antirretrovirais. Além disso, a avaliação do metabolismo dos referidos fármacos foi realizada com o emprego de microssomas a fim de verificar se tais substâncias são substratos de enzimas da família CYP3A e, assim, verificar o impacto do metabolismo intestinal na absorção. Os resultados de permeabilidade obtidos em PAMPA foram: 0,74±0,11 x 10-6 cm/s para a estavudina, 0,25±0,12 x 10-6 cm/s para a lamivudina e 1,14±0,25 x 10-6 cm/s para a zidovudina. Já no modelo ex vivo com o emprego de câmaras de difusão vertical tipo Franz, os resultados foram: 1,56±0,32 x 10-5 cm/s para a estavudina, 1,26±0,27 x 10-5 cm/s para a lamivudina e 2,54±0,49 x 10-5 cm/s para a zidovudina. Portanto, com base nos resultados obtidos a partir dos dois métodos empregados, sugere-se que 30 outro mecanismo de transporte que não envolva a permeabilidade por difusão transcelular passiva possa estar relacionado à permeabilidade dos fármacos antirretrovirais. Com relação aos estudos de efluxo, os resultados obtidos a partir dos experimentos realizados em câmaras de difusão vertical tipo Franz demonstraram o aumento significativo da permeabilidade dos três antirretrovirais quando o inibidor de P-gp foi empregado, sendo: de 15,6 x 10-6 para 42,5 x 10-6 cm/s para a estavudina, de 12,6 x 10-6 para 37,5 x 10-6 cm/s para a lamivudina e de 25,4 x 10-6 para 56,6 x 10-6 cm/s para a zidovudina. Em culturas celulares MDCK-MDR1, os resultados de permeabilidade foram utilizados para a obtenção das razões entre as direções B→A e A→B. Os valores de Papp na condição inibida para os fármacos estudados apresentaram razão menor do que 1. Já a razão B→A/A→B para cada fármaco nos ensaios sem inibidor apresentou-se igual ou maior que 2, evidenciando a interação fármaco-transportador. Com base nisso, o modelo ex vivo com o emprego de segmentos intestinais em câmaras de difusão vertical tipo Franz apresentou-se adequado na avaliação do mecanismo de efluxo dos fármacos antirretrovirais, o que foi confirmado com os estudos realizados em MDCK-MDR1. Assim, os fármacos antirretrovirais estudados apresentaram interação significativa com a P-gp. Em relação aos estudos de metabolismo realizados em câmaras de difusão vertical tipo Franz, os resultados demonstraram grande variação na permeabilidade dos três antirretrovirais quando o inibidor de CYP3A foi empregado, sendo: de 15,6 x 10-6 para 23,5 x 10-6 cm/s para a estavudina, de 12,6 x 10-6 para 27,3 x 10-6 cm/s para a lamivudina e de 25,4 x 10-6 para 40,5 x 10-6 cm/s para a zidovudina. Já no modelo que emprega microssomas, os resultados de metabolização na ausência e na presença de inibidor de CYP3A foram: de 16,56% para 19,79% para a estavudina, de 14,56% para 15,55% para a lamivudina e de 17,85% para 16,48% para a zidovudina. Com base nisso, sugerese o emprego de microssomas para a determinação de metabolismo, uma vez que o método ex vivo empregado demonstrou grande variação entre os valores obtidos. Desta forma, observou-se que, para cada fármaco, não houve influência significativa no metabolismo pré-sistêmico relacionado às enzimas do complexo CYP3A, o que indica que a absorção oral das referidas substâncias não é limitada por tais enzimas. Portanto, a utilização dos diferentes métodos empregados no desenvolvimento do presente trabalho permitiu compreender os mecanismos envolvidos no transporte dos fármacos antirretrovirais, o que se torna de grande relevância nas etapas de desenvolvimento farmacêutico de novas moléculas e na compreensão de eventos clínicos ainda não esclarecidos atualmente

For orally administered drugs, control of the extent and rate of absorption depends on two important steps: solubility of the drug in physiological liquids and their permeability across biological membranes. Thus, the Biopharmaceutics Classification System (BCS) has been proposed as a tool for the development of new drugs, new formulations and aid in the biowaiver processes. However, another factor related to bioavailability that should be considered in biopharmaceutic studies is the metabolism. Thus, the Biopharmaceutics Drug Disposition Classification System (BDDCS) has been proposed for drug classification according to their solubility and metabolism characteristics, so it is possible to evaluate and predict the in vivo behavior of a compound. Metabolism has been extensively investigated, especially cytochrome P450 enzymes, which are also expressed in enterocytes. Besides, BDDCS provides support in evaluating the permeability mechanisms involved in the absorption processes, drug-drug interactions and drug-food interactions. Thus, the present study aimed to evaluate the mechanisms of permeability of antiretroviral drugs through the ex vivo (Franz cells) and in vitro (PAMPA, MDCK-MDR1 and microsomes) models considering aspects related to the intestinal metabolism and efflux of these drugs. Given the importance of the use of antiretroviral drugs in drug therapy against Acquired Immune Deficiency Syndrome (AIDS) and that these drugs are usually administered in a long-term way, understanding the mechanisms involved in the permeability is of a great importance, since they are not totally elucidated and no information is found in the literature. In addition, drugs as stavudine, lamivudine and zidovudine indicate variation in the permeability, which require further scientific investigation of absorptive processes. Thus, jejunum segments from rats were used to evaluate the intestinal permeability of these antiretroviral drugs, considering the evaluation of efflux by P-glycoprotein and intestinal metabolism by CYP3A. In a complementary manner, in vitro studies using parallel artificial membranes (PAMPA) and cell cultures MDCK-MDR1 were performed to aid in the elucidation of the permeability mechanisms of antiretroviral drugs. Also, the evaluation of the metabolism was carried out using microsomes to verify if such substances are substrates of CYP3A, and verify the impact of the intestinal metabolism in the absorption. The permeability results obtained in PAMPA were: 0.74±0.11x10-6 cm/s for stavudine, 0.25±0.12x10-6 cm/s for lamivudine and 1.14±0.25x10-6 cm/s for zidovudine. In ex vivo method using the intestinal segments in Franz cells, the results were: 1.56±0.32x10-5 cm/s for stavudine, 1.26±0.27x10-5 cm/s for lamivudine and 2.54±0.49x10-5 cm/s for zidovudine. Thus, based on the results obtained from these two methods, it is suggested that the antiretroviral drugs present other transport mechanism that is different from transcellular passive diffusion. For efflux studies, results obtained from experiments performed in Franz cells shown the increase of the permeability of the three antiretroviral drugs when the P-gp inhibitor was used: from 15.6x10-6 to 42,5x10-6 cm/s for stavudine, from 12.6x10-6 cm/s to 37.5x10-6 cm/s for lamivudine, and 25.4x10-6 to 56.6x10-6 cm/s for zidovudine. In MDCK-MDR1, the permeability results were used for obtaining ratio values between the directions B→A and A→B. The Papp values obtained with 33 inhibitor shown a ratio less than 1. For ratio B→A/A→B for each drug in experiments without inhibitor, the values obtained was equal or greater than 2, which shows the interaction between drug and transporter. Based on that, the ex vivo model using intestinal segments in Franz cells seems to be adequate for evaluation of efflux mechanism of antiretroviral drugs, which was confirmed by MDCK-MDR1 studies. Thus, the antiretroviral drugs presented interaction with P-gp. For metabolism studies in intestinal segments in Franz cells, a wide range of standard deviation was observed for the three antiretroviral drugs when the CYP3A inhibitor was used: from 15.6x10-6 cm/s to 23.5x10-6 cm/s for stavudine, from 12.6x10-6 cm/s to 27.3x10-6 cm/s for lamivudine, and from 25.4x10-6 cm/s to 40.5x10-6 cm/s for zidovudine. In experiments in microsomes, the results of metabolization in the absence and presence of CYP3A inhibitor were: from 16.56 to 19.79% for stavudine, from 14.56 to 15.55% for lamivudine and from 17.85 to 16.48% for zidovudine. Based on that, it is suggested the use of microsomes for metabolism evaluation, since the ex vivo method presented high variability between the results obtained. For each drug, no significative influence in pre-systemic metabolism related to CYP3A enzymes was observed, which indicates that the oral absorption of the drugs is not limited by these enzymes. The use of different methods in this work allowed to understand the mechanisms involved in the transport of antiretroviral drugs, which is of a great relevance in drug development and in the understanding of clinical events currently not clarified

Single-Pass Intestinal Perfusion (SPIP) and prediction of fraction absorbed and permeability in humans: A study with antiretroviral drugs.

In recent years, the prediction of oral drug absorption in humans has been a challenge for researchers and many techniques for permeability studies have been developed for several purposes, including biowaiver processes. The Single-Pass Intestinal Perfusion (SPIP) method performed in rats can provide permeability results closest to in vivo condition. The purpose of the present study was to evaluate the intestinal permeability of the antiretroviral drugs lamivudine, stavudine and zidovudine using the SPIP method in rats and to predict their permeability (Peff,humans) and fraction absorbed (Fa) in humans. Metoprolol and fluorescein were used as marker compounds of high and low permeability, respectively. The effective permeability (Peff) results showed that stavudine and zidovudine have high permeability characteristics while lamivudine presented the lowest result. From Peff values obtained in rats, the Peff,humans and Fa were calculated. The use of SPIP in rats and calculations for absorption prediction in humans may indicate the transport mechanisms and/or pre-systemic metabolism involved on permeation processes of drugs, since this model is the closest to in vivo conditions.

Evaluating Potential P-gp Substrates: Main Aspects to Choose the Adequate Permeability Model for Assessing Gastrointestinal Drug Absorption.

The success of an oral drug route administration depends on many factors that interfere in its bioavailability, therapeutic efficacy and clinical safety. In human cells, ATP-dependent efflux transporter proteins, such as P-glycoprotein (P-gp), BCRP and MRP2, reduce the absorption of drugs. A tiered approach chosen to evaluate drugs as substrates or inhibitors of efflux pumps, particularly P-gp, should be carefully selected, since each study method has advantages and intrinsic limitations to their processes. Depending on the adopted study conditions, the results may not correspond to the real characteristics of the drug regarding to its modulation by specific efflux proteins. This mini-review aims at summarizing the role of P-gp in the drugs oral absorption and correlating some of the most used permeability methods to determine the drug condition as P-gp substrate. Studies about P-gp have shown that it is a dynamic protein, facilitating secretion of endogenous compounds, as aldosterone, and protecting cells against xenobiotics. Different efflux assays are employed to evaluate drugs as P-gp substrates. In an initial planning, MDCK-MDR1 tend to be the chosen method for efflux studies due its ability of express P-gp, followed by studies conducted in Caco-2 models. However, it is necessary to evaluate the advantages and disadvantages of each method to generate sound results and to set the correlation in vitro x in situ x in vivo.

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.