Terbutaline Transdermal Delivery: Preformulation Studies and Limitations of In-vitro Predictive Parameters

Abstract

A transdermal dosage form of terbutaline may be useful to prevent nocturnal wheezing by providing prolonged duration of action. It will also improve patient compliance and bioavailability. Controlled input of the drug would be an additional advantage as this will reduce the intersubject variablity. Preformulation studies were conducted to determine the feasibility of a transdermal dosage form of terbutaline. The drug solubility in propylene glycol was 6.3 mg mL−1. The apparent partition coefficient (n-octanol/deionized-water, pH 6.5) of terbutaline was 0.03. A pH-partition coefficient (octanol/buffer) profile indicated that the partition coefficient values were 0.02, 0.05 and 04 in buffers of pH 3, 7.4 and 9, respectively. The required drug flux through the human skin to attain therapeutic concentrations in the blood was calculated to be 3.3 μg cm−2 h−1 for a 10-cm2 transdermal delivery system. Rabbit, guinea-pig and human skin was tested as the penetration barrier using modified Franz diffusion cells. Terbutaline flux values through the rabbit and guinea-pig skin were 8.3 and 7.7 μg cm−2 h−1, respectively. The flux through human full-thickness skin and human epidermis were 0.6 and 3.6 μg cm−2 h−1. Azone (3% w/v), a skin penetration enhancer, significantly increased the drug flux through all the membranes tested. Based on these studies, transdermal delivery of terbutaline appears to be promising.