harmacokinetics of pegloticase has not been studied in children and adolescents.
No formal studies were conducted to examine the effects of either renal or hepatic impairment on pegloticase pharmacokinetics.
Nonclinical Toxicology
Carcinogenesis, Mutagenesis, Impairment of Fertility
Long-term animal studies have not been performed to eva luate the carcinogenic potential of pegloticase.
The genotoxic potential of pegloticase has not been eva luated.
Fertility studies in animals have not been performed.
Animal Toxicology and/or Pharmacology
In a 12-week intravenous repeat-dose study in dogs, there was a dose-dependent increase in vacuolated macrophages in the spleen. The presence of vacuolated macrophages likely reflects accumulated removal of injected pegloticase (foreign) material from the circulation. There was no evidence of degeneration, inflammation, or necrosis associated with the vacuoles findings, however there was evidence of decreased functional response to liposaccharides.
In a 39-week, repeat dose dog study, there was a dose dependent increase in vacuolated cells in several organs, including the spleen, adrenal gland, liver, heart, duodenum and jejunum. In the spleen, liver, duodenum and jejunum, these vacuoles were within macrophages and most likely represented phagocytic removal of pegloticase from the circulation. However, the vacuolated cells in the heart and adrenal gland did not stain as macrophages. In the aortic outflow tract of the heart, vacuoles were in the cytoplasm of endothelial cells in the intimal lining of the aorta. In the adrenal gland, vacuoles were located within cortical cells in the zona reticularis and zona fasciculata. The clinical significance of these findings and the functional consequences are unknown.
Clinical Studies
The efficacy of Krystexxa was studied in adult patients with chronic gout refractory to conventional therapy in two replicate, multicenter, randomized, double-blind, placebo-controlled studies of six months duration: Trial 1 and Trial 2. Patients were randomized to receive Krystexxa 8 mg every 2 weeks or every 4 weeks or placebo in a 2:2:1 ratio. Studies were stratified for the presence of tophi. Seventy-one percent (71%) of patients had baseline tophi. All patients were prophylaxed with an oral antihistamine, intravenous corticosteroid and acetaminophen. Patients also received prophylaxis for gout flares with non-steroidal anti-inflammatory drugs (NSAIDs) or colchicine, or both, beginning at least one week before Krystexxa treatment unless medically contraindicated or not tolerated. Patients who completed the randomized clinical trials were eligible to enroll in a 2-year open label extension study.
Entry criteria for patients to be eligible for the trials were: baseline serum uric acid (SUA) of at least 8 mg/dL; had symptomatic gout with at least 3 gout flares in the previous 18 months or at least 1 gout tophus or gouty arthritis; and had a self-reported medical contraindication to allopurinol or medical history of failure to normalize uric acid (to less than 6 mg/dL) with at least 3 months of allopurinol treatment at the maximum medically appropriate dose.
The mean age of study subjects was 55 years (23-89); 82% were male, mean body mass index (BMI) was 33 kg/m2, mean duration of gout was 15 years, and mean baseline SUA was 10 mg/dL.
To assess the efficacy of Krystexxa in lowering uric acid, the primary endpoint in both trials was the proportion of patients who achieved plas |
