Comparative evaluation of dissolution profiles of the generic drug lamivudine 150 mg tablet marketed in Peru vs. the innovative Epivir. / Evaluación comparativa de perfiles de disolución del medicamento genérico lamivudina tableta 150 mg comercializado en Perú frente al innovador Epivir.

Lamivudine is one of the most prescribed drugs in the world, and is used to treat human immunodeficiency and hepatitis B. This study aimed to evaluate the quality attributes and compare the dissolution profiles of two batches (A and B) of generic lamivudine 150 mg tablets with the innovator drug Epivir 150 mg tablets. We conducted an analytical, experimental, cross-sectional study, and used a spectrophotometric method at a wavelength of maximum absorption (λ) corresponding to 270 nm, to measure the percentage of dissolved drug. The study evaluated identification, content, dissolution and mass uniformity. Apparatus 2 USP (Paddle) 75 rpm, 900 mL of dissolution medium (37 ± 0.5 °C) was used in three dissolution media: pH 1.2; 4.5 and 6.8. Samples of 5 mL were obtained at 5, 10, 15, 20 and 30 min. Both batches of generic lamivudine (A and B) were found to have the same dissolution kinetic profile as the innovator drug. Both formulations met the criteria of very fast dissolving (85% dissolved in 15 min), and fast dissolving (85% dissolved in 30 min) drugs. Therefore, it was not necessary to calculate the similarity factor. We concluded that generic drugs A and B are in vitro equivalents to the innovator drug Epivir. Motivation for the study. To evaluate the quality of antiretroviral drugs used in the treatment of HIV dispensed in the HAART Program of the Ministry of Health of Peru. Main findings. Two batches of generic lamivudine drugs were found to achieve a dissolution rate greater than 85% at 15 min, being equivalent in vitro to the reference product Epivir. Implications. There is a need to apply the current regulations regarding equivalence between drugs by the regulatory authority prior to their authorization and to include dissolution profile tests as a requirement in public drug purchases, especially in national strategies (HIV, TB, etc.), in order to ensure quality products for the population.

La lamivudina es uno de los medicamentos más prescritos en el mundo, se utiliza para tratar la inmunodeficiencia humana y la hepatitis B. El objetivo del estudio fue evaluar los atributos de calidad y comparar los perfiles de disolución de dos lotes (A y B) del medicamento genérico lamivudina 150 mg tabletas con el medicamento innovador Epivir 150 mg tabletas. Se realizó un estudio analítico, experimental y de corte transversal, se usó un método espectrofotométrico a una longitud de onda de máxima absorción (λ) correspondiente a 270 nm, para medir el porcentaje de fármaco disuelto. El estudio evaluó identificación, contenido, disolución y uniformidad de masas. Se usó el aparato 2 USP (Paleta) 75 rpm, 900 mL de medio de disolución (37 ± 0,5 °C) a en tres medios de disolución: pH 1,2; 4,5 y 6,8. Se retiraron muestras de 5 mL a los 5, 10, 15, 20 y 30 min. Se encontró que ambos lotes de lamivudina genérico (A y B) presentan el mismo perfil cinético de disolución que el medicamento innovador. Ambas formulaciones cumplen con el criterio de medicamentos de disolución muy rápida (85% disuelto en 15 min), y de disolución rápida (85% disuelto en 30 min). Por lo tanto, no fue necesario calcular el factor de similitud. Se concluye que los medicamentos genéricos A y B son equivalentes in vitro con el medicamento innovador Epivir. Motivación para realizar el estudio. Evaluar la calidad de los medicamentos antirretrovirales usados en el tratamiento del VIH dispensados en el Programa TARGA del Ministerio de Salud de Perú. Principales hallazgos. Se encontró que dos lotes de medicamentos genéricos de lamivudina alcanzaron un porcentaje de disolución mayor del 85% a los 15 min, siendo equivalentes in vitro al producto de referencia Epivir. Implicancias. Existe la necesidad de aplicar la normatividad vigente respecto a equivalencia entre fármacos por parte de la autoridad regulatoria previo a su autorización e incluir ensayos de perfil de disolución como requisito en las compras públicas de medicamentos, especialmente en las estrategias nacionales (VIH, TBC, etc.), con la finalidad de asegurar productos de calidad para la población.

Theoretical and experimental studies of the stability of drug-drug interact.

Several factors can intervene in the molecular properties and consequently in the stability of drugs. The molecular complexes formation often occur due to favor the formation of hydrogen bonds, leading the system to configuration more energy stable. This work we aim to investigate through theoretical and experimental methods the relation between stability and properties of molecular complexes the molecular complex formed between the drugs, efavirenz (EFV), lamivudine (3TC) and zidovudine (AZT). With this study was possible determining the most stable complex formed between the compounds evaluated. In addition the energy and structural properties of the complex formed in relation to its individual components allowed us to evaluate the stability of the same.

In vitro-in vivo Pharmacokinetic correlation model for quality assurance of antiretroviral drugs.

INTRODUCTION: The in vitro-in vivo pharmacokinetic correlation models (IVIVC) are a fundamental part of the drug discovery and development process. The ability to accurately predict the in vivo pharmacokinetic profile of a drug based on in vitro observations can have several applications during a successful development process. OBJECTIVE: To develop a comprehensive model to predict the in vivo absorption of antiretroviral drugs based on permeability studies, in vitro and in vivo solubility and demonstrate its correlation with the pharmacokinetic profile in humans. METHODS: Analytical tools to test the biopharmaceutical properties of stavudine, lamivudine y zidovudine were developed. The kinetics of dissolution, permeability in caco-2 cells and pharmacokinetics of absorption in rabbits and healthy volunteers were evaluated. RESULTS: The cumulative areas under the curve (AUC) obtained in the permeability study with Caco-2 cells, the dissolution study and the pharmacokinetics in rabbits correlated with the cumulative AUC values in humans. These results demonstrated a direct relation between in vitro data and absorption, both in humans and in the in vivo model. CONCLUSIONS: The analytical methods and procedures applied to the development of an IVIVC model showed a strong correlation among themselves. These IVIVC models are proposed as alternative and cost/effective methods to evaluate the biopharmaceutical properties that determine the bioavailability of a drug and their application includes the development process, quality assurance, bioequivalence studies and pharmacosurveillance.

INTRODUCCIÓN: Los modelos de correlación In vitro-in vivo (IVIVC) son parte integral del proceso de investigación y desarrollo de fármacos. La capacidad de predecir con exactitud el perfil in vivo a partir de las observaciones in vitro tiene diversas aplicaciones durante el desarrollo exitoso de una formulación. OBJETIVO: Desarrollar un modelo integral para predecir la absorción in vivo de fármacos antirretrovirales con base en estudios de permeabilidad, solubilidad in vitro e in vivo y demostrar su correlación con la farmacocinética en humanos. MÉTODOS: Se desarrollaron y validaron las técnicas bioanalíticas para valorar las propiedades biofarmacéuticas de Estavudina, Lamivudina y Zidovudina. Se evaluó las cineticas de disolución, la permeabilidad en monocapas celulares Caco-2 y la farmacocinética de absorción in vivo en conejos y voluntarios sanos. RESULTADOS: Los valores de AUC acumulados en el sistema de células Caco-2, en la disolución y en el modelo animal, fueron correlacionados con los valores de AUC acumulados en el humano. Con lo anterior se demostró una relación directamente proporcional entre los resultados in vitro con respecto a los obtenidos en la fase de absorción tanto en el humano como en el modelo animal. CONCLUSIONES: Los métodos analíticos y procedimientos aplicados en la IVIVC demostraron las correspondencias directas entre sí, con altos niveles de correlación. Se proponen estos modelos IVIVC como métodos alternativos costo/efectivos para la valoración de las propiedades biofarmacéuticas que determinan la biodisponibilidad, en el desarrollo de productos, en el aseguramiento de la calidad y como pruebas de bioequivalencia en los programas de farmacovigilancia.

In vitro-in vivo Pharmacokinetic correlation model for quality assurance of antiretroviral drugs / Modelo de correlación farmacocinético in vitro-in vivo para el aseguramiento de la calidad de medicamentos antirretrovirales

Introduction: The in vitro-in vivo pharmacokinetic correlation models (IVIVC) are a fundamental part of the drug discovery and development process. The ability to accurately predict the in vivo pharmacokinetic profile of a drug based on in vitro observations can have several applications during a successful development process. Objective: To develop a comprehensive model to predict the in vivo absorption of antiretroviral drugs based on permeability studies, in vitro and in vivo solubility and demonstrate its correlation with the pharmacokinetic profile in humans. Methods: Analytical tools to test the biopharmaceutical properties of stavudine, lamivudine y zidovudine were developed. The kinetics of dissolution, permeability in caco-2 cells and pharmacokinetics of absorption in rabbits and healthy volunteers were evaluated. Results: The cumulative areas under the curve (AUC) obtained in the permeability study with Caco-2 cells, the dissolution study and the pharmacokinetics in rabbits correlated with the cumulative AUC values in humans. These results demonstrated a direct relation between in vitro data and absorption, both in humans and in the in vivo model. Conclusions: The analytical methods and procedures applied to the development of an IVIVC model showed a strong correlation among themselves. These IVIVC models are proposed as alternative and cost/ effective methods to evaluate the biopharmaceutical properties that determine the bioavailability of a drug and their application includes the development process, quality assurance, bioequivalence studies and pharmacosurveillance.

Introducción: Los modelos de correlación In vitro-in vivo (IVIVC) son parte integral del proceso de investigación y desarrollo de fármacos. La capacidad de predecir con exactitud el perfil in vivo a partir de las observaciones in vitro tiene diversas aplicaciones durante el desarrollo exitoso de una formulación. Objetivo: Desarrollar un modelo integral para predecir la absorción in vivo de fármacos antirretrovirales con base en estudios de permeabilidad, solubilidad in vitro e in vivo y demostrar su correlación con la farmacocinética en humanos. Métodos: Se desarrollaron y validaron las técnicas bioanalíticas para valorar las propiedades biofarmacéuticas de Estavudina, Lamivudina y Zidovudina. Se evaluó las cineticas de disolución, la permeabilidad en monocapas celulares Caco-2 y la farmacocinética de absorción in vivo en conejos y voluntarios sanos. Resultados: Los valores de AUC acumulados en el sistema de células Caco-2, en la disolución y en el modelo animal, fueron correlacionados con los valores de AUC acumulados en el humano. Con lo anterior se demostró una relación directamente proporcional entre los resultados in vitro con respecto a los obtenidos en la fase de absorción tanto en el humano como en el modelo animal. Conclusiones: Los métodos analíticos y procedimientos aplicados en la IVIVC demostraron las correspondencias directas entre sí, con altos niveles de correlación. Se proponen estos modelos IVIVC como métodos alternativos costo/efectivos para la valoración de las propiedades biofarmacéuticas que determinan la biodisponibilidad, en el desarrollo de productos, en el aseguramiento de la calidad y como pruebas de bioequivalencia en los programas de farmacovigilancia.

Preformulation studies of novel 5'-O-carbonates of lamivudine with biological activity: solubility and stability assays.

As a part of preformulation studies, the aim of this work was to examine the solubility and stability of a series of 5'-O-carbonates of lamivudine with proven antihuman immunodeficiency virus activity. Solubility studies were carried out using pure solvents (water, ethanol and polyethylene glycol 400 [PEG 400]), as well as cosolvents in binary mixture systems (water-ethanol and water-PEG 400). These ionizable compounds showed that their aqueous solubility is decreasing as the carbon length of the substituent moiety increases, but being enhanced as the pH was reduced from 7.4 to 1.2. Thus, 3TC-Metha an active compound of the series, with an intrinsic solubility at 25 °C of 17 mg/mL, was about 70 times more soluble than 3TC-Octa (0.24 mg/mL), and at pHs of 1.2, 5.8 and 7.4 had intrinsic solubilities of 36.48, 19.20 and 15.40 mg/mL, respectively. In addition, the solubility was enhanced significantly by using ethanol and PEG 400 as cosolvents. A stability study was conducted in buffer solutions at pH 1.2, 5.8, 7.4 and 13.0 and in human plasma at 37 °C. Stability-indicating high-performance liquid chromatography procedure was found to be selective, sensitive and accurate for these compounds and good recovery, linearity and precision were also observed.

Lamivudine salts with improved solubilities.

To optimize solubility of drugs, current strategies mainly focus on engineering and screening of smart crystal phases. Two salts of the anti-human immunodeficiency virus (HIV) drug lamivudine--namely, lamivudine hydrochloride and lamivudine hydrochloride monohydrate, were prepared in the course of screening the crystallization conditions of lamivudine duplex, an uncommon DNA-mimic, double-stranded helical structure made up of partially protonated drug pairs. Here, water solubilities of lamivudine hydrochloride, lamivudine hydrochloride monohydrate, and lamivudine duplex are reported. The aqueous solubility of this anti-HIV drug was significantly increased in both salts and also in lamivudine duplex in relation to the water solubility of lamivudine form II. In comparison with the lamivudine form II incorporated into therapeutic formulations, the drug solubility was increased at a temperature of 299 ± 2 K by factors of 1.2, 3.3, and 4.5 in lamivudine hydrochloride, lamivudine hydrochloride monohydrate, and lamivudine duplex, respectively, demonstrating that this solid-state property of lamivudine can be improved by crystal engineering strategies. Solubility profiles were understood on the basis of structural and solvent-solute interaction approaches. At last, correlations between solubility and crystal structures allowed for a rational approach to understand how this physicochemical feature could be enhanced by engineering new salts of the drug.

HIV/AIDS treatment and physicochemical quality control of medicines: evaluation of non-generic lamivudine + zidovudine tablets manufactured in Brazil

In this work it was evaluated the physicochemical quality of lamivudine + zidovudine tablets, whose association belongs to the list of drugs distributed by the Brazil's National Program on Sexually Transmitted Diseases and AIDS. Four non-generic products (lamivudine + zidovudine tablets) were analyzed. They were obtained from different Brazilian manufacturers, besides a reference product. The quality was evaluated by physicochemical tests described in the official codes. A validated reversed-phase high performance liquid chromatography (HPLC) method was used for the assay of the active substances. All samples were in accordance to the requisites in relation to their physicochemical characteristics. Dissolution studies showed similar drug percentual dissolved among all samples. The results reflect the interest of the national pharmaceutical industry to ensure the delivery of safer and cheaper drugs to the Brazilian people, with particular importance in the National Program on Sexually Transmitted Diseases and AIDS.

Identification of lamivudine conformers by Raman scattering measurements and quantum chemical calculations.

Characterization of nucleoside and non-nucleoside human immunodeficiency virus (HIV) reverse transcriptase inhibitors conformers, NRTIs and NNRTIs, respectively, is fundamental for an improved treatment of infected individuals. Three conformers in lamivudine I powder are quickly identified in this work by assignment of some Raman peaks to their vibrational frequencies, as obtained by first principles quantum chemical calculations. The method is proposed as a practical procedure for non-destructive identification, analysis, and process monitoring of NRTIs and NNRTIs conformers.

HIV/AIDS treatment and physicochemical quality control of medicines: evaluation of non-generic lamivudine + zidovudine tablets manufactured in Brazil.

In this work it was evaluated the physicochemical quality of lamivudine + zidovudine tablets, whose association belongs to the list of drugs distributed by the Brazil's National Program on Sexually Transmitted Diseases and AIDS. Four non-generic products (lamivudine + zidovudine tablets) were analyzed. They were obtained from different Brazilian manufacturers, besides a reference product. The quality was evaluated by physicochemical tests described in the official codes. A validated reversed-phase high performance liquid chromatography (HPLC) method was used for the assay of the active substances. All samples were in accordance to the requisites in relation to their physicochemical characteristics. Dissolution studies showed similar drug percentual dissolved among all samples. The results reflect the interest of the national pharmaceutical industry to ensure the delivery of safer and cheaper drugs to the Brazilian people, with particular importance in the National Program on Sexually Transmitted Diseases and AIDS.

Dissolution test for lamivudine tablets: optimization and statistical analysis.

A comparison of different methods for dissolution test used by five different manufacturer laboratories of lamivudine tablets is made, evaluated, and discussed. Dissolution medium (water and hydrochloric acid pH 1.2), apparatus (paddles and baskets) and time (30 and 60 min) were analyzed. The determination was accomplished by spectrophotometry at 270 nm. Analysis of variance (ANOVA) factorial design 5 x 2 x 2 x 2 with six repetitions, with post hoc multiple comparisons between means conducted by Duncan test at 0.05 significance level was used. After the comparative analysis of the results, optimal dissolution conditions were determined as follows: water as dissolution medium, paddles at the stirring speed of 50 rpm as apparatus and time of 30 min. The method was applied to the dissolution test of samples from eleven batches of tablets, produced by five different laboratories.