多物理场与多尺度建模、数据-模型融合以及临床器官生理学整合：心室心脏力学

Multiphysics and multiscale modelling, data-model fusion and integration of organ physiology in the clinic: ventricular cardiac mechanics.

作者信息

Chabiniok Radomir, Wang Vicky Y, Hadjicharalambous Myrianthi, Asner Liya, Lee Jack, Sermesant Maxime, Kuhl Ellen, Young Alistair A, Moireau Philippe, Nash Martyn P, Chapelle Dominique, Nordsletten David A

机构信息

Division of Imaging Sciences and Biomedical Engineering, King's College London, St Thomas' Hospital, London SE1 7EH, UK; Inria and Paris-Saclay University, Bâtiment Alan Turing, 1 rue Honoré d'Estienne d'Orves, Campus de l'Ecole Polytechnique, Palaiseau 91120, France.

Auckland Bioengineering Institute , University of Auckland , 70 Symonds Street, Auckland , New Zealand.

出版信息

Interface Focus. 2016 Apr 6;6(2):20150083. doi: 10.1098/rsfs.2015.0083.

DOI:10.1098/rsfs.2015.0083

PMID:27051509

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4759748/

Abstract

With heart and cardiovascular diseases continually challenging healthcare systems worldwide, translating basic research on cardiac (patho)physiology into clinical care is essential. Exacerbating this already extensive challenge is the complexity of the heart, relying on its hierarchical structure and function to maintain cardiovascular flow. Computational modelling has been proposed and actively pursued as a tool for accelerating research and translation. Allowing exploration of the relationships between physics, multiscale mechanisms and function, computational modelling provides a platform for improving our understanding of the heart. Further integration of experimental and clinical data through data assimilation and parameter estimation techniques is bringing computational models closer to use in routine clinical practice. This article reviews developments in computational cardiac modelling and how their integration with medical imaging data is providing new pathways for translational cardiac modelling.

摘要

随着心脏和心血管疾病持续对全球医疗保健系统构成挑战，将心脏（病理）生理学的基础研究转化为临床护理至关重要。心脏的复杂性加剧了这一已然广泛的挑战，心脏依靠其层次结构和功能来维持心血管流动。计算建模已被提出并积极作为加速研究和转化的工具。计算建模允许探索物理、多尺度机制和功能之间的关系，为增进我们对心脏的理解提供了一个平台。通过数据同化和参数估计技术进一步整合实验和临床数据，正使计算模型更接近在常规临床实践中的应用。本文综述了心脏计算建模的进展，以及它们与医学成像数据的整合如何为转化性心脏建模提供新途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9217/4759748/93f85dc7402f/rsfs20150083-g1.jpg

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多物理场与多尺度建模、数据-模型融合以及临床器官生理学整合：心室心脏力学

Multiphysics and multiscale modelling, data-model fusion and integration of organ physiology in the clinic: ventricular cardiac mechanics.

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