ABSTRACT
Currently, medications used in children are typically modified from pharmaceutical dosage forms designed for adults. Captopril is widely adapted to liquid formulations for use in hospitals. Its stability in the aqueous medium is reduced since it undergoes oxidation producing captopril disulfide (its main metabolite). The aim of this formulation study was to suggest favorable conditions for the development of a stable captopril formulation. The compatibility between the drug and excipients was evaluated by differential scanning calorimetry analysis (DSC). For studies in solution, different formulations were prepared according to a factorial design varying EDTA concentration, water purity and pH. The resultant formulations were stored at 60°C and analyzed over a twelve-day period using HPLC. The DSC curves obtained suggested, although not conclusive to elucidation, interactions of captopril with citric acid and sucralose. The stability study of these solutions revealed that the variables significantly influenced captopril content, which degraded at zero order kinetics and rates differing by a factor of up to 7 times, where pH proved the most influential factor. Interactions between variables were observed. Therefore, development of a stable captopril formulation is feasible provided EDTA and a buffering agent is used at suitable concentrations (0.08% and pH 3.85).
ABSTRACT
Isoniazid and rifampicin are considered the first-line medication for preventing and treating tuberculosis. Rifampicin is degraded in the stomach acidic environment, especially when combined with isoniazid, factor contributing to treatment failure. In this study, gastric-resistant isoniazid pellets were obtained to physical contact of this drug with rifampicin and to bypass the stomach´s acidic environment. The pellets were fabricated using the extrusion-spheronization technique. The coating process was conducted in a fluid spray coater using Acrycoat L 100(r) solution as the coating agent. The pellets obtained were submitted to a dissolution test in HCl 0.1 N and phosphate buffer media. The results indicated that optimum gastric-resistance was only attained with the highest amount of coating material, with isoniazid almost fully released in phosphate buffer. The amount of rifampicin released from its mixture with non-coated isoniazid pellets in HCl 0.1 N was less than that released from its mixture with the enteric-coated pellets. Acrycoat L 100(r) was shown to be an effective enteric/gastric-resistant coating since the stability of rifampicin appeared to be enhanced when physical contact of this drug with isoniazid was prevented at low pH.
Isoniazida e rifampicina são fármacos de primeira escolha para a prevenção e tratamento da tuberculose. A rifampicina degrada-se em condições ácidas do estômago, principalmente na presença da isoniazida, o que contribui para a falha do tratamento. O presente trabalho teve como objetivo a obtenção de péletes de isoniazida gastrorresistentes, visando a evitar contato da rifampicina com isoniazida e consequente degradação no meio ácido estomacal. Os péletes foram produzidos pela técnica de extrusão-esferonização. O processo de revestimento foi conduzido em leito fluidizado com solução orgânica de Acrycoat L 100(r). Os péletes obtidos foram submetidos ao teste de dissolução em HCl 0,1 N e tampão fosfato. Os resultados indicam que a gastrorresistência foi obtida somente com a maior quantidade de revestimento, sendo a isoniazida liberada completamente no meio tampão fosfato. A quantidade de rifampicina dissolvida em meio ácido, quando associada a péletes de isoniazida não revestidos, foi menor do que a observada na presença de péletes de liberação entérica. O polímero Acrycoat L 100(r) mostrou-se eficiente para o recobrimento com a função de gastrorresistência, indicando que a instabilidade da rifampicina pode ser reduzida nas associações com a isoniazida através do revestimento entérico da isoniazida.