Regulatory toxicology considerations for the development of inhaled pharmaceuticals.

The preclinical safety studies required to support the development of inhaled drugs are generally the same as for other routes of administration. Repeat-dose toxicology studies should be conducted by inhalation to ensure the characterization of both the local (i.e., respiratory) and systemic toxicity, although some studies (e.g., reproductive) can be performed by utilizing alternative routes, when it is paramount to maximize systemic exposure. Respiratory tract changes in preclinical species can include irritancy of the larynx and nasal cavity, particularly in rodents. Such changes are not necessarily predictive of a risk to humans because of the exquisite sensitivity of the rodent larynx and the lack of exposure to the nasal cavity after oro-inhalation of drugs in the clinical setting. The design of poorly soluble molecules to limit systemic exposure places greater emphasis on the elimination of drugs from the lungs by macrophages. Consequently, an increase in macrophage numbers is often noted, and in the absence of any other changes, this is generally considered to be a nonadverse, physiological response to an inhaled particulate. Other changes in the lung, which can include an inflammatory response and/or epithelial hyperplasia, resulting from irritancy or particulate overload, are a safety concern and are not monitorable in humans. For such changes, safety margins can be calculated in terms of the drug deposited per unit weight of lung. These factors should be taken into account when designing preclinical studies or programs for inhaled drugs.

An evaluation of reproductive and developmental toxicity of sitaxentan (thelin) in rats.

Sitaxentan sodium (Thelin) is a once daily, orally bioavailable, highly selective endothelin A receptor antagonist. Initially approved for the treatment of pulmonary arterial hypertension, sitaxentan was withdrawn in 2010 following the recognition of a pattern of idiosyncratic liver injury. During development of this drug, a series of nonclinical studies investigated the effects of orally administered sitaxentan on fertility, embryofetal development, and pre- and postnatal development in the rat; results of these studies are reported here. In the fertility study, sitaxentan did not affect mating behavior, fertility, sperm morphology, or estrous cycle. Sitaxentan was teratogenic in the embyrofetal development study, which was expected based on its pharmacologic mechanism of action. Teratogenic effects included malformations of the head, mouth, face, and large blood vessels. In the pre- and postnatal study, sitaxentan administration was associated with reduced pup survival, large or abnormally shaped livers, and delays in markers of auditory and sexual development. Sitaxentan was detected in plasma of suckling pups receiving milk from females dosed with sitaxentan. These nonclinical study findings were reflected in the sitaxentan product label warnings.

Evaluation of sitaxentan (Thelin®) toxicity in juvenile rats and regulatory interactions during the development of a European Medicines Agency pediatric investigation plan.

Pulmonary arterial hypertension (PAH) is characterized by increasing pulmonary vascular resistance leading to right heart failure and death. Sitaxentan (Thelin®) demonstrated efficacy in adult PAH; however, PAH therapy for children is critically needed. To support development for pediatric patients, sitaxentan (10, 30, or 60mg/kg/day) toxicity was assessed in juvenile (postnatal day 22-14weeks) rats. Sitaxentan did not affect survival, clinical signs, or body weight; no target organ of toxicity was identified. Hematologic changes were decreased erythrocyte parameters, prothrombin time, and activated partial thromboplastin time. Reproductive development and function in both sexes was unaffected, as assessed by mating performance; fertility, estrous cyclicity, and maintenance of normal pregnancy up to mid-gestation; sperm count, morphology, and motility; and testicular changes. The no-observed-adverse-effect level (NOAEL) on reproductive development and function was 60mg/kg/day; for toxicity, the NOAEL was 30mg/kg/day (coagulation parameter changes). Sitaxentan did not adversely affect physical development, cognitive ability, or reproductive function at exposures that were 58- and 61-fold higher than those found in adults after therapeutic exposure (100mg/day). This study is discussed in the context of evolving European pediatric drug legislation and guidance.

An overview of the preclinical toxicity and potential carcinogenicity of sitaxentan (Thelin®), a potent endothelin receptor antagonist developed for pulmonary arterial hypertension.

Sitaxentan (Thelin®), an endothelin receptor antagonist with a long duration of action and high specificity for the endothelin receptor A subtype, was used to treat pulmonary arterial hypertension. It was withdrawn from the market due to an idiosyncratic risk of drug-induced liver injury identified from emerging clinical trial data and clinical case reports. The preclinical safety profile of sitaxentan is presented, including single- and repeat-dose toxicity in mice, rats, and dogs and carcinogenicity in mice and rats. Sitaxentan-related adverse effects included coagulopathy in rats and dogs, increased serum alkaline phosphatase activity in mice and dogs, and hepatic hypertrophy in all species. Decreased albumin, erythrocyte count, hemoglobin concentration and hematocrit, and increased coagulation times and liver weight were also noted. These effects generally occurred at systemic exposures (AUC(0-24)) that were substantially greater than those seen in humans. Twice-daily (vs. once daily) dosing resulted in increased toxicity, which correlated with increased trough plasma sitaxentan concentrations. Sitaxentan appeared to have a low potential for testicular and hepatic toxicity and was not carcinogenic. These studies suggested that sitaxentan would have a reasonable margin of safety when used as directed in humans and supported a positive benefit:risk assessment at the time of marketing approval.