An organosynthetic dynamic heart model with enhanced biomimicry guided by cardiac diffusion tensor imaging

心内注射 生物医学工程 磁共振弥散成像 心室 计算机科学 磁共振成像 心脏病学 工程类 医学 放射科
作者
Clara Park,Yiling Fan,Gregor Hager,Hyunwoo Yuk,Manisha Singh,Allison Rojas,Aamir Hameed,Mossab Y. Saeed,Nikolay V. Vasilyev,Terry W. J. Steele,Xuanhe Zhao,Christopher Nguyen,Ellen T. Roche
出处
期刊:Science robotics [American Association for the Advancement of Science]
卷期号:5 (38) 被引量:47
标识
DOI:10.1126/scirobotics.aay9106
摘要

The complex motion of the beating heart is accomplished by the spatial arrangement of contracting cardiomyocytes with varying orientation across the transmural layers, which is difficult to imitate in organic or synthetic models. High-fidelity testing of intracardiac devices requires anthropomorphic, dynamic cardiac models that represent this complex motion while maintaining the intricate anatomical structures inside the heart. In this work, we introduce a biorobotic hybrid heart that preserves organic intracardiac structures and mimics cardiac motion by replicating the cardiac myofiber architecture of the left ventricle. The heart model is composed of organic endocardial tissue from a preserved explanted heart with intact intracardiac structures and an active synthetic myocardium that drives the motion of the heart. Inspired by the helical ventricular myocardial band theory, we used diffusion tensor magnetic resonance imaging and tractography of an unraveled organic myocardial band to guide the design of individual soft robotic actuators in a synthetic myocardial band. The active soft tissue mimic was adhered to the organic endocardial tissue in a helical fashion using a custom-designed adhesive to form a flexible, conformable, and watertight organosynthetic interface. The resulting biorobotic hybrid heart simulates the contractile motion of the native heart, compared with in vivo and in silico heart models. In summary, we demonstrate a unique approach fabricating a biomimetic heart model with faithful representation of cardiac motion and endocardial tissue anatomy. These innovations represent important advances toward the unmet need for a high-fidelity in vitro cardiac simulator for preclinical testing of intracardiac devices.
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