Litcius/Paper detail

A Quantitative Clinical Pharmacology-Based Framework For Model-Informed Vaccine Development

Rajat Desikan, Massimiliano Germani, Piet H. van der Graaf, Mindy Magee

2023Journal of Pharmaceutical Sciences11 citationsDOIOpen Access PDF

Abstract

Historically, vaccine development and dose optimization have followed mostly empirical approaches without clinical pharmacology and model-informed approaches playing a major role, in contrast to conventional drug development. This is attributed to the complex cascade of immunobiological mechanisms associated with vaccines and a lack of quantitative frameworks for extracting dose-exposure-efficacy-toxicity relationships. However, the Covid-19 pandemic highlighted the lack of sufficient immunogenicity due to suboptimal vaccine dosing regimens and the need for well-designed, model-informed clinical trials which enhance the probability of selection of optimal vaccine dosing regimens. In this perspective, we attempt to develop a quantitative clinical pharmacology-based approach that integrates vaccine dose-efficacy-toxicity across various stages of vaccine development into a unified framework that we term as model-informed vaccine dose-optimization and development (MIVD). We highlight scenarios where the adoption of MIVD approaches may have a strategic advantage compared to conventional practices for vaccines.

Topics & Concepts

DosingClinical trialDrug developmentMedicineClinical pharmacologyImmunogenicityIntensive care medicinePharmacologyDrugRisk analysis (engineering)ImmunologyImmune systemInternal medicineBiosimilars and Bioanalytical MethodsComputational Drug Discovery Methodsvaccines and immunoinformatics approaches