Clinica chimica acta; international journal of clinical chemistry
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Observational Study
Impact of genetic and non-genetic factors on clinical responses to prochlorperazine in oxycodone-treated cancer patients.
The contributions of DRD2 and OPRM1 genetic variants to clinical responses to prochlorperazine remain to be clarified in opioid-treated patients. We evaluated the clinical responses to prochlorperazine based on non-genetic and genetic factors in oxycodone-treated patients. ⋯ DRD2 TaqIA and female gender altered the prophylactic antiemetic efficacy of prochlorperazine. OPRM1 A118G together with plasma exposure of prochlorperazine and gender affected prolactin secretion in oxycodone-treated patients.
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Genetic variations in enzymes that produce active metabolites from pro-drugs are well known. Such variability could account for some of the clinically observed differences in analgesia and side effects seen in postoperative patients. Using genotyping and quantitation of serum concentrations of hydrocodone and its metabolites, we sought to demonstrate the clinical effects of the metabolites of hydrocodone on pain relief. The objective of the current study was to determine whether CYP2D6 genotype and serum hydromorphone levels account for some of the variability in pain relief seen with hydrocodone in a cohort of women post-Cesarean section. ⋯ This study shows that hydromorphone is generated at substantially different rates, dependent on CYP2D6 genotype. Pain relief correlated with plasma concentrations of hydromorphone, and not with hydrocodone. This suggests that pain relief will vary with CYP2D6 genotype. Inability to metabolize hydrocodone to hydromorphone as seen in the poor metabolizers should alert the clinician to consider alternative medications for managing pain postoperatively.