A Novel Approach to Generate a Virtual Population of Human Coronary Arteries for In Silico Clinical Trials of Stent Design

A Novel Approach to Generate a Virtual Population of Human Coronary Arteries for In Silico Clinical Trials of Stent Design

Goal: To develop a cardiovascular virtual population using statistical modeling and computational biomechanics. Methods: A clinical data augmentation algorithm is implemented to efficiently generate virtual clinical data using a real clinical dataset. An atherosclerotic plaque growth model is employ...

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Veröffentlicht in:IEEE open journal of engineering in medicine and biology 2021-01, Vol.2, p.201-209
Hauptverfasser: Pleouras, Dimitrios, Sakellarios, Antonis, Rigas, George, Karanasiou, Georgia S., Tsompou, Panagiota, Karanasiou, Gianna, Kigka, Vassiliki, Kyriakidis, Savvas, Pezoulas, Vasileios, Gois, George, Tachos, Nikolaos, Ramos, Aidonis, Pelosi, Gualtiero, Rocchiccioli, Silvia, Michalis, Lampros, Fotiadis, Dimitrios I.
Format: Artikel
Sprache:eng
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<italic xmlns:ali="http://www.niso.org/schemas/ali/1.0/" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance">in-silico clinical trials
Algorithms
Arteries
Arteriosclerosis
Atherosclerosis
Biomechanics
Cardiovascular virtual population
clinical data augmentation
Clinical trials
Computer applications
Coronary artery
Coronary vessels
Covariance matrices
Data models
Geometry
Growth models
Implants
Mathematical model
Mathematical models
plaque growth modeling
Population
Population (statistical)
Sociology
Statistical analysis
Statistical models
Statistics
Three-dimensional displays
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Zusammenfassung:Goal: To develop a cardiovascular virtual population using statistical modeling and computational biomechanics. Methods: A clinical data augmentation algorithm is implemented to efficiently generate virtual clinical data using a real clinical dataset. An atherosclerotic plaque growth model is employed to 3D reconstructed coronary arterial segments to generate virtual coronary arterial geometries (geometrical data). Last, the combination of the virtual clinical and geometrical data is achieved using a methodology that allows for the generation of a realistic virtual population which can be used in in silico clinical trials. Results: The results show good agreement between real and virtual clinical data presenting a mean gof 0.1 ± 0.08. 400 virtual coronary arteries were generated, while the final virtual population includes 10,000 patients. Conclusions: The virtual arterial geometries are efficiently matched to the generated clinical data, both increasing and complementing the variability of the virtual population.
ISSN:2644-1276
2644-1276
DOI:10.1109/OJEMB.2021.3082328