Patient-specific, multiscale modelling of neointimal hyperplasia in lower-limb vein grafts using readily available clinical data
Ninno F, Chiastra C, Donadoni F, Dardik A, Strosberg D, Aboian E, Tsui J, Balabani S, Díaz-Zuccarini V. Patient-specific, multiscale modelling of neointimal hyperplasia in lower-limb vein grafts using readily available clinical data. Journal Of Biomechanics 2024, 177: 112428. PMID: 39561605, DOI: 10.1016/j.jbiomech.2024.112428.Peer-Reviewed Original ResearchTime-averaged wall shear stressInflow boundary conditionsBoundary conditionsWall shear stressShear stressMultiscale modelWaveform shapePeripheral arterial diseaseNeointimal hyperplasiaVein graftsClinical dataMechanobiological mechanismsGraft responseMultiscale in silico modelSystolic acceleration timeModelling lower-limb peripheral arterial disease using clinically available datasets: impact of inflow boundary conditions on hemodynamic indices for restenosis prediction
Ninno F, Chiastra C, Colombo M, Dardik A, Strosberg D, Aboian E, Tsui J, Bartlett M, Balabani S, Díaz-Zuccarini V. Modelling lower-limb peripheral arterial disease using clinically available datasets: impact of inflow boundary conditions on hemodynamic indices for restenosis prediction. Computer Methods And Programs In Biomedicine 2024, 251: 108214. PMID: 38759252, DOI: 10.1016/j.cmpb.2024.108214.Peer-Reviewed Original ResearchComputational fluid dynamics resultsComputational fluid dynamicsInlet boundary conditionsInlet BCBoundary conditionsLow time-averaged WSSComputational fluid dynamics simulationsTime-averaged WSSNear-wall hemodynamicsInflow boundary conditionsInlet waveformCFD simulationsInflow conditionsFluid dynamicsInletSurface areaWaveformFlow velocityGeometry reconstructionSimulationAccurate estimationVelocity waveformsDoppler ultrasound imagingAcquisition timeScanning