A translational pharmacokinetic/pharmacodynamic approach supports optimal vonoprazan dosing for erosive oesophagitis and Helicobacter pylori infection Journal Articles uri icon

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abstract

  • SummaryBackgroundTreatment of acid‐related disorders relies on gastric acid suppression. The percentage of time intragastric pH is >4 (pH >4 holding time ratio [HTR]) is important for healing erosive oesophagitis; and the pH >6 HTR is critical for eradication of Helicobacter pylori infection, as bacterial replication is active and antibiotic effectiveness is optimised. Vonoprazan, a potassium‐competitive acid blocker approved in the USA and other countries, suppresses gastric acid secretion in a predictable, rapid and consistent manner, extended over prolonged periods.AimTo explore the relationship between vonoprazan exposure and pH HTR through a pharmacokinetic/pharmacodynamic (PK/PD) model.MethodsWe pooled data from Phase 1 studies with intragastric pH measurements. Pharmacokinetic profiles were predicted for study participants using an existing population pharmacokinetic model. Pharmacokinetic and pharmacodynamic data were merged, and three direct‐link PK/PD models were derived and used to simulate pH HTRs with between‐participant variability for pH >4, >5 and >6, for vonoprazan doses of 20 mg once and twice daily.ResultsWe used data from five Phase 1 studies to derive the PK/PD model. These included 245 participants (95.1% male, 50.6% Japanese and 49.4% non‐Asian). Pre‐dose, the mean pH >4 HTR was 6.4%, pH >5 3.2% and pH >6 1.2%. After 7 days of dosing, simulations predicted pH >4 HTRs of 89.7% and 98.1%, and pH >6 HTRs of 53.1% and 75.3%, for vonoprazan 20 mg once and twice daily, respectively.ConclusionsVonoprazan 20 mg once‐ and twice‐daily dosing demonstrated high, dose‐dependent, 24‐hour intragastric acid control in this PK/PD model, supporting clinical efficacy data in patients with acid‐related disorders.

authors

  • Scarpignato, Carmelo
  • Howden, Colin W
  • Leifke, Eckhard
  • Mulford, Darcy J
  • Lahu, Gezim
  • Facius, Axel
  • Hunt, Richard H

publication date

  • July 2023