Prosthetic Vascular Grafts Engineered to Combat Calcification: Progress and Future Directions

Overview

Journal Biotechnol Bioeng

Publisher Wiley

Specialty Biochemistry

Date 2022 Dec 22

PMID 36544433

Authors

Taylor K Brown

Sara Alharbi

Karen J Ho

Bin Jiang

Affiliations

Soon will be listed here.

Abstract

Calcification in prosthetic vascular conduits is a major challenge in cardiac and vascular surgery that compromises the long-term performance of these devices. Significant research efforts have been made to understand the etiology of calcification in the cardiovascular system and to combat calcification in various cardiovascular devices. Novel biomaterial design and tissue engineering strategies have shown promise in preventing or delaying calcification in prosthetic vascular grafts. In this review, we highlight recent advancements in the development of acellular prosthetic vascular grafts with preclinical success in attenuating calcification through advanced biomaterial design. We also discuss the mechanisms of action involved in the designs that will contribute to the further understanding of cardiovascular calcification. Lastly, recent insights into the etiology of vascular calcification will guide the design of future prosthetic vascular grafts with greater potential for translational success.

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