Citric Acid: A Nexus Between Cellular Mechanisms and Biomaterial Innovations-Reference-Cited by-同舟云学术

Citric Acid: A Nexus Between Cellular Mechanisms and Biomaterial Innovations

Published:2024-06-11 Issue:32 Volume:36 Page:
ISSN:0935-9648
Container-title:Advanced Materials
language:en
Short-container-title:Advanced Materials

Author:

Xu Hui¹,Yan Su¹,Gerhard Ethan¹,Xie Denghui²³,Liu Xiaodong⁴⁵⁶⁷,Zhang Bing⁴⁵⁶⁷,Shi Dongquan⁸,Ameer Guillermo A.⁹¹⁰¹¹,Yang Jian⁴¹²^ORCID

Affiliation:

1. Department of Biomedical Engineering The Pennsylvania State University University Park PA 16802 USA

2. Department of Histology and Embryology School of Basic Medical Sciences Department of Orthopedic Surgery The Third Affiliated Hospital of Southern Medical University Southern Medical University Guangzhou 510515 P. R. China

3. Academy of Orthopedics of Guangdong Province Guangdong Provincial Key Laboratory of Bone and Joint Degeneration Diseases Guangzhou 510630 P. R. China

4. Research Center for Industries of the Future Westlake University Hangzhou Zhejiang 310030 P. R. China

5. School of Life Sciences Westlake University Hangzhou Zhejiang 310030 P. R. China

6. Westlake Laboratory of Life Sciences and Biomedicine Hangzhou Zhejiang 310030 P. R. China

7. Westlake Institute for Advanced Study Hangzhou Zhejiang 310030 P. R. China

8. Division of Sports Medicine and Adult Reconstructive Surgery Department of Orthopedic Surgery Nanjing Drum Tower Hospital The Affiliated Hospital of Nanjing University Medical School 321 Zhongshan Road Nanjing Jiangsu 210008 P. R. China

9. Department of Biomedical Engineering Northwestern University Evanston IL 60208 USA

10. Center for Advanced Regenerative Engineering Northwestern University Evanston IL 60208 USA

11. Department of Surgery Feinberg School of Medicine Northwestern University Chicago IL 60611 USA

12. Biomedical Engineering Program School of Engineering Westlake University Hangzhou Zhejiang 310030 P. R. China

Abstract

AbstractCitrate‐based biodegradable polymers have emerged as a distinctive biomaterial platform with tremendous potential for diverse medical applications. By harnessing their versatile chemistry, these polymers exhibit a wide range of material and bioactive properties, enabling them to regulate cell metabolism and stem cell differentiation through energy metabolism, metabonegenesis, angiogenesis, and immunomodulation. Moreover, the recent US Food and Drug Administration (FDA) clearance of the biodegradable poly(octamethylene citrate) (POC)/hydroxyapatite‐based orthopedic fixation devices represents a translational research milestone for biomaterial science. POC joins a short list of biodegradable synthetic polymers that have ever been authorized by the FDA for use in humans. The clinical success of POC has sparked enthusiasm and accelerated the development of next‐generation citrate‐based biomaterials. This review presents a comprehensive, forward‐thinking discussion on the pivotal role of citrate chemistry and metabolism in various tissue regeneration and on the development of functional citrate‐based metabotissugenic biomaterials for regenerative engineering applications.

Funder

National Heart, Lung, and Blood Institute

National Institute of Neurological Disorders and Stroke

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adma.202402871

Reference425 articles.

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