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Inflammation as a Risk Factor in Cardiotoxicity: An Important Consideration for Screening During Drug Development

Chiara Campana, Rafael Dariolli, Mohamed Boutjdir, Eric A. Sobie

2021Frontiers in Pharmacology14 citationsDOIOpen Access PDF

Abstract

Numerous commonly prescribed drugs, including antiarrhythmics, antihistamines, and antibiotics, carry a proarrhythmic risk and may induce dangerous arrhythmias, including the potentially fatal Torsades de Pointes. For this reason, cardiotoxicity testing has become essential in drug development and a required step in the approval of any medication for use in humans. Blockade of the hERG K + channel and the consequent prolongation of the QT interval on the ECG have been considered the gold standard to predict the arrhythmogenic risk of drugs. In recent years, however, preclinical safety pharmacology has begun to adopt a more integrative approach that incorporates mathematical modeling and considers the effects of drugs on multiple ion channels. Despite these advances, early stage drug screening research only evaluates QT prolongation in experimental and computational models that represent healthy individuals. We suggest here that integrating disease modeling with cardiotoxicity testing can improve drug risk stratification by predicting how disease processes and additional comorbidities may influence the risks posed by specific drugs. In particular, chronic systemic inflammation, a condition associated with many diseases, affects heart function and can exacerbate medications’ cardiotoxic effects. We discuss emerging research implicating the role of inflammation in cardiac electrophysiology, and we offer a perspective on how in silico modeling of inflammation may lead to improved evaluation of the proarrhythmic risk of drugs at their early stage of development.

Topics & Concepts

CardiotoxicityTorsades de pointeshERGMedicineDrug developmentQT intervalDrugIntensive care medicinePharmacologyDiseaseProarrhythmiaBioinformaticsRisk analysis (engineering)Internal medicineToxicityBiologyPotassium channelCardiac electrophysiology and arrhythmiasReceptor Mechanisms and SignalingAtrial Fibrillation Management and Outcomes