The physical and chemical stability of anti-tuberculosis fixed-dose combination products under accelerated climatic conditions.

OBJECTIVE: To determine the physical and chemical stability of anti-tuberculosis fixed-dose combinations (FDC) of rifampicin (RMP), isoniazid (INH), pyrazinamide (PZA) and ethambutol (EMB) sold on the Indian market. METHODS: The products were stored for 3 months under ICH/WHO accelerated conditions (40 degrees C / 75% RH), with and without the original packaging in the presence and absence of light. RESULTS: The initial RMP, INH and PZA content was found to be within the range of 90-110% of the label claim. However, the products were found to have some chemical instability even initially; one of the tablets also showed physical instability. Under accelerated conditions, the unpackaged products underwent severe changes, whereas both physical and chemical changes were also observed in the packaged formulations. The physical changes were stronger under lighted conditions. A significant finding is that PZA and perhaps EMB may play a catalytic role in the interaction between INH and RMP. CONCLUSION: This study suggests that, unless they are packed in barrier packaging, anti-tuberculosis FDC formulations should be considered unstable, and due consideration should be given to their development pharmaceutics, packaging and stability testing.

Behavior of uptake of moisture by drugs and excipients under accelerated conditions of temperature and humidity in the absence and the presence of light. 1. Pure anti-tuberculosis drugs and their combinations.

An investigation was carried out to determine the behavior of moisture gain by four anti-tuberculosis drugs, viz. rifampicin, isoniazid, pyrazinamide and ethambutol, when exposed in pure form and in combinations to accelerated conditions of 40 degrees C and 75% RH, in the absence and the presence of light. Weight gain was seen only in those samples that contained ethambutol, and this behavior was observed both in dark and lighted chambers. There was a decrease in moisture uptake with an increase in the number of drugs in the mixture. Another observation was a higher weight gain by the mixture of ethambutol and isoniazid in a dark chamber, than either pure ethambutol or drug combinations containing ethambutol. The most interesting finding was an overall acceleration of weight gain in the presence of light as compared with dark conditions, which is a hitherto unknown phenomenon.