Litcius/Paper detail

In-silico trial of intracranial flow diverters replicates and expands insights from conventional clinical trials

Ali Sarrami‐Foroushani, Toni Lassila, Michael MacRaild, Joshua Asquith, Kit C. B. Roes, James V. Byrne, Alejandro F. Frangi

2021Nature Communications73 citationsDOIOpen Access PDF

Abstract

The cost of clinical trials is ever-increasing. In-silico trials rely on virtual populations and interventions simulated using patient-specific models and may offer a solution to lower these costs. We present the flow diverter performance assessment (FD-PASS) in-silico trial, which models the treatment of intracranial aneurysms in 164 virtual patients with 82 distinct anatomies with a flow-diverting stent, using computational fluid dynamics to quantify post-treatment flow reduction. The predicted FD-PASS flow-diversion success rates replicate the values previously reported in three clinical trials. The in-silico approach allows broader investigation of factors associated with insufficient flow reduction than feasible in a conventional trial. Our findings demonstrate that in-silico trials of endovascular medical devices can: (i) replicate findings of conventional clinical trials, and (ii) perform virtual experiments and sub-group analyses that are difficult or impossible in conventional trials to discover new insights on treatment failure, e.g. in the presence of side-branches or hypertension.

Topics & Concepts

Flow diverterReplicateIn silicoClinical trialComputer scienceMedicineBioinformaticsBiologySurgeryPathologyAneurysmMathematicsStatisticsGeneBiochemistryIntracranial Aneurysms: Treatment and ComplicationsCerebrovascular and Carotid Artery DiseasesAortic aneurysm repair treatments