Qualidade por Design Analítico (AQbD) aplicado no desenvolvimento e otimização de métodos cromatográficos / Analytical Quality by Design (AQbD) applied in the development and optimization of chromatographic methods

O guia Q8(R2) do guia ICH descreve Qualidade por Design (QbD) como "uma abordagem sistemática para desenvolvimento farmacêutico que começa com objetivos predefinidos e enfatiza produto, entendimento e controle dos processos, baseado em dados científicos sólidos e gestão do risco da qualidade". Os métodos analíticos são considerados parte integrante do desenvolvimento farmacêutico. Assim, a Qualidade por Design Analítico (AQbD) é justificável e recomendada para obter flexibilidade regulatória, reduzir os resultados fora de especificação, obter um alto grau de robustez e um método analítico econômico. O Planejamento de Experimentos (DoE) é um conjunto de ferramentas estatísticas que inclui delineamentos de triagem e otimização, no qual os fatores são sistematicamente variados para determinar seus efeitos nas respostas, o que permite a determinação de quais fatores são os mais significantes, a identificação de qual configuração de fatores resulta em respostas otimizadas e a identificação de interações entre os fatores. As abordagens QbD e AQbD permitem a melhoria contínua ao longo do ciclo de vida do produto farmacêutico e do método analítico, inclusive para reduzir a variabilidade do produto, melhorar o desempenho do processo, reduzir resultados fora da especificação, melhorar o desempenho analítico, entre outros. O Cloridrato de Verapamil foi escolhido como molécula teste para desenvolvimento do projeto. Na primeira etapa do estudo foi realizado uma triagem com 13 fatores e 20 experimentos, utilizando o delineamento Plackett-Burman, seguiu-se para a próxima etapa com 7 fatores e 16 experimentos através do delineamento fatorial fracionado (Res.: IV). A etapa de otimização foi realizada com 3 fatores e 20 experimentos utilizando o delineamento central composto. Após todas as etapas do estudo, as seguintes condições foram consideradas ideais: Fase móvel A - Tampão formiato de amônio 10 mM pH 3,0, Fase móvel B - Amoníaco 2,0% em acetonitrila, eluição do tipo gradiente, coluna cromatográfica XSelect CSH C18 (100mm x 4,6mm x 3,5 µm), fluxo de 0,7 mL/min, volume de injeção de 2 µL para teor e 10 µL para produtos de degradação. Os métodos desenvolvidos são robustos, validados e indicativos de estabilidade

The ICH guide Q8 (R2) describes Quality by Design as "a systematic approach to pharmaceutical development that begins with predefined goals and emphasizes product, understanding and control of processes, based on solid scientific data and Quality Risk Management ". Analytical methods are considered an integral part of pharmaceutical development. Thus, the application of QbD approach to analytical method development is justifiable and a recommended strategy to attain regulatory flexibility, to reduce out-of-specification results, to achieve a high degree of robustness and a cost-effective analytical method. DoE is a set of statistical tools which include screening designs and optimization designs. In DoE approach, the controlled input factors are systematically varied to determine their effects on the output responses, which allows the determination of the most important input factors, the identification of input factors setting leading to optimized output responses, and the identification of interactions between input factors. The QbD and AQbD approach allows the continuous improvement throughout the lifecycle of pharmaceutical product and analytical method, including to reduce product variability, to improve process performance, to reduce out-of-specification results, to improve analytical performance, among others. Verapamil Hydrochloride was chosen as a test molecule for the development of the project. In the first phase of the study, a 13-factor and 20-experiment screening was performed using the Plackett-Burman design, followed by the 7-factor and 16-experiment next stage through fractional factorial design (Res .: IV). The optimization step was performed with 3 factors and 20 experiments using the composite central design. After performing all the study steps, the following conditions were considered ideal: Mobile Phase A - 10 mM ammonium formate buffer pH 3.0, Mobile Phase B - 2.0% ammonia in acetonitrile, gradient elution, column chromatographic XSelect CSH C18 (100mm x 4.6mm x 3.5µm), flow rate of 0.7ml / min, injection volume of 2µL for assay and 10µL for degradation products. The methods developed are robust, validated and stability indicating

Mechanisms of hepatotoxicity of chloroacetonitrile: an end product of water chlorination

Chloroacetonitrile is a disinfectant by-product of chlorination of drinking water and is considered as a directacting mutagenic and carcinogenic agent. Time-course and dose-response studies were performed to examine the mechanism of chloroacetonitrile-induced hepatotoxicity. In the time-course study, animals were scarified at 2, 4, 6 and 12 h after a single oral dose of chloroacetonitrile [38 mg/kg, p.o.]. In the dose-response study, rats were scarified at 2 h after a single oral dose of chloroacetonitrile [9, 19, 38, and 76 mg/kg]. In the time-course study chloroacetonitrile induced a significant decrease of hepatic glutathione, and activities of glutathione-S-transferase, glutathione proxidase and superoxide dismutase accompanied with an increase of hepatic malondialdehyde, plasma cytokines [IL-6 and 10 and TNF-alpha], serum aminotransferases and total bilirubin after 2 h of administration. Maximal alteration of the estimated parameters was observed at 4 h and returned to normal value at 6 h and/or 12 h after chloroacetonitrile treatment. Moreover, the alterations in oxidant, antioxidant parameters, inflammatory cytokines and the liver function tests were dose dependant. Histopathological findings supported the biochemical results. These data indicate that the mechanism of chloroacetonitrile-induced hepatotoxicity may be mediated through depletion of antioxidants, induction of oxidative stress and inflammatory cytokines

Investigation of Induced biochemical and histopathological parameters of acetonitril extract of Jatropha carcus in albino rats

Toxicological and histopathological investigations were carried on the acetonitrile extract from J. Carcus in comparison with praziquantel, the known anti-schistosomal drug. On a constant weight dose bases [single dose of 50 mg/kg body weight injected orally to albino rats], the acetonitrile extract from J. carcus showed mild toxicological parameters, biochemical parameters as well as histopathological profile in comparison with the control. However, these side effects were nonsignificant compared with the severe side effects caused by praziquantel