Litcius/Paper detail

Recommended approaches for integration of population pharmacokinetic modelling with precision dosing in clinical practice

Monika Berezowska, Isaac S. Hayden, Andrew M. Brandon, A. V. Zats, Mehzabin Patel, S. Barnett, Kayode Ogungbenro, Gareth J. Veal, Alaric Taylor, Jugal Suthar

2024British Journal of Clinical Pharmacology15 citationsDOIOpen Access PDF

Abstract

Current methods of dose determination have contributed to suboptimal and inequitable health outcomes in underrepresented patient populations. The persistent demand to individualise patient treatment, alongside increasing technological feasibility, is leading to a growing adoption of model-informed precision dosing (MIPD) at point of care. Population pharmacokinetic (popPK) modelling is a technique that supports treatment personalisation by characterising drug exposure in diverse patient groups. This publication addresses this important shift in clinical approach, by collating and summarising recommendations from literature. It seeks to provide standardised guidelines on best practices for the development of popPK models and their use in MIPD software tools, ensuring the safeguarding and optimisation of patient outcomes. Moreover, it consolidates guidance from key regulatory and advisory bodies on MIPD software deployment, as well as technical requirements for electronic health record integration. It also considers the future application and clinical impact of machine learning algorithms in popPK and MIPD. Ultimately, this publication aims to facilitate the incorporation of high-quality precision-dosing solutions into standard clinical workflows, thereby enhancing the effectiveness of individualised dose selection at point of care.

Topics & Concepts

DosingMedicineWorkflowIntensive care medicineSoftware deploymentPoint of carePopulationPersonalizationMEDLINEMedical physicsComputer scienceNursingSoftware engineeringPharmacologyWorld Wide WebEnvironmental healthDatabaseLawPolitical scienceStatistical Methods in Clinical TrialsPharmacogenetics and Drug MetabolismAntibiotics Pharmacokinetics and Efficacy