Litcius/Paper detail

A review on the biomechanical behaviour of the aorta

Xiaochen Wang, Harry J. Carpenter, Mergen H. Ghayesh, Andrei Kotousov, Anthony C. Zander, Marco Amabili, Peter J. Psaltis

2023Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials48 citationsDOIOpen Access PDF

Abstract

Large aortic aneurysm and acute and chronic aortic dissection are pathologies of the aorta requiring surgery. Recent advances in medical intervention have improved patient outcomes; however, a clear understanding of the mechanisms leading to aortic failure and, hence, a better understanding of failure risk, is still missing. Biomechanical analysis of the aorta could provide insights into the development and progression of aortic abnormalities, giving clinicians a powerful tool in risk stratification. The complexity of the aortic system presents significant challenges for a biomechanical study and requires various approaches to analyse the aorta. To address this, here we present a holistic review of the biomechanical studies of the aorta by categorising articles into four broad approaches, namely theoretical, in vivo, experimental and combined investigations. Experimental studies that focus on identifying mechanical properties of the aortic tissue are also included. By reviewing the literature and discussing drawbacks, limitations and future challenges in each area, we hope to present a more complete picture of the state-of-the-art of aortic biomechanics to stimulate research on critical topics. Combining experimental modalities and computational approaches could lead to more comprehensive results in risk prediction for the aortic system.

Topics & Concepts

AortaBiomechanicsModalitiesAortic dissectionRisk stratificationMedicineAortic aneurysmCardiologyAnatomySocial scienceSociologyElasticity and Material ModelingAortic Disease and Treatment ApproachesAortic aneurysm repair treatments