Ramtin Gharleghi scite author profile

Abstract3D printing as a means of fabrication has seen increasing applications in medicine in the last decade, becoming invaluable for cardiovascular applications. This rapidly developing technology has had a significant impact on cardiovascular research, its clinical translation and education. It has expanded our understanding of the cardiovascular system resulting in better devices, tools and consequently improved patient outcomes. This review discusses the latest developments and future directions of generating medical replicas (‘phantoms’) for use in the cardiovascular field, detailing the end-to-end process from medical imaging to capture structures of interest, to production and use of 3D printed models. We provide comparisons of available imaging modalities and overview of segmentation and post-processing techniques to process images for printing, detailed exploration of latest 3D printing methods and materials, and a comprehensive, up-to-date review of milestone applications and their impact within the cardiovascular domain across research, clinical use and education. We then provide an in-depth exploration of future technologies and innovations around these methods, capturing opportunities and emerging directions across increasingly realistic representations, bioprinting and tissue engineering, and complementary virtual and mixed reality solutions. The next generation of 3D printing techniques allow patient-specific models that are increasingly realistic, replicating properties, anatomy and function.

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Deep Learning for Time Averaged Wall Shear Stress Prediction in Left Main Coronary Bifurcations

Gharleghi¹,

Samarasinghe

Sowmya

et al. 2020

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Automated segmentation of normal and diseased coronary arteries – The ASOCA challenge

Gharleghi

Adikari

Ellenberger

et al. 2022

Computerized Medical Imaging and Graphics

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Secondary flow in bifurcations – Important effects of curvature, bifurcation angle and stents

Shen

Gharleghi

et al. 2021

Journal of Biomechanics

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Transient wall shear stress estimation in coronary bifurcations using convolutional neural networks

Gharleghi

Sowmya

Beier

2022

Computer Methods and Programs in Biomedicine

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