Allopurinol dose reduction proportional to creatinine clearance (CLcr) results in suboptimal urate lowering in patients with gout. Similarly, diuretic therapy reduces oxypurinol clearance but is unexpectedly associated with the need for higher allopurinol doses to achieve the serum urate target (<0.36 mmol/L). The authors aimed to clarify the relationship between oxypurinol exposure and urate-lowering response in patients with gout at different stages of chronic kidney disease and those taking diuretics to determine the implications for maintenance dose selection. Oxypurinol and urate data from 5 clinical studies were available. Model-derived steady-state oxypurinol areas under the concentration-time curves (AUCss0-tau) were estimated using a Bayesian methodology. The observed response metrics included the percentage reduction in urate from baseline and achievement of the target urate level. Exposure-response was explored graphically and using logistic regression. In addition, the influence of chronic kidney disease and diuretic use on the allopurinol dose and oxypurinol AUCss0-tau requirements to achieve the serum urate target were explored. Data from 258 patients with gout taking allopurinol representing 1288 paired steady-state oxypurinol and serum urate measurements were available. Higher oxypurinol exposure seems to be required for urate-lowering response normalization and achieve the serum urate target in individuals with reduced kidney function and those taking diuretics. However, allopurinol dose requirements were reduced by 2-fold at the extremes of kidney function and unchanged in those taking or not taking diuretics. A lower allopurinol maintenance dose was required in patients with reduced kidney function (CLcr <30 mL/min), but this was not proportional to CLcr. Diuretic therapy did not influence allopurinol dose requirements.
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