Examining the Impact of Diet-and-Exercise-Induced Weight Loss on Drug Metabolism and Gastric Emptying in Patients with Obesity.

Abstract

Obesity significantly influences drug pharmacokinetics (PK), which challenges optimal dosing. This study examines the effects of diet-and-exercise-induced weight loss on key drug-metabolizing enzymes and gastric emptying in patients with obesity, who frequently require medications for comorbidities. Participants followed a structured weight management program promoting weight loss over 3-6 months and were not concomitantly on potential CYP inducers or inhibitors. Using a drug cocktail of acetaminophen, caffeine, omeprazole, and midazolam, we assessed UGT1A1, CYP1A2, CYP2C19, and CYP3A4 enzyme activities before and after weight loss, respectively, by measuring parent and metabolite concentrations. The time to maximum acetaminophen plasma concentrations reflected the gastric emptying time. PK profiles were compared across two phases: baseline (Phase 1) and post-weight loss (Phase 2). Twenty-four participants enrolled, 21 completed Phase 1 and 12 completed both phases. Statistically significant (N = 12, P < .05) gains in CYP2C19 and CYP3A4 activity were observed after weight loss of 7.6% to 26.2%, with a median [25th, 75th percentile] increase in activity of 90.5 [15.0, 194.3] % and 43.0 [7.5, 68.0] %, respectively. A 2- or 3-h single plasma sample-based ratio of the metabolite to parent concentration strongly correlated with the respective AUC ratio for the drug metabolism phenotype (N = 21). Our findings provide provisional data for evaluation of the effects of non-pharmacologically and non-surgically induced weight loss on gastric emptying and drug metabolism for future physiologically based PK models. Development of mechanistic models to optimize drug dosing in obesity are necessary since weight and body composition shifts are expected with emerging new treatments.