Technological advances in fibrin for tissue engineering

Raúl Sanz-Horta; Ana Matesanz; Alberto Gallardo; Helmut Reinecke; José Luis Jorcano; Pablo Acedo; Diego Velasco; Carlos Elvira

doi:10.1177/20417314231190288

Journal of Tissue Engineering (Aug 2023)

Technological advances in fibrin for tissue engineering

Raúl Sanz-Horta,
Ana Matesanz,
Alberto Gallardo,
Helmut Reinecke,
José Luis Jorcano,
Pablo Acedo,
Diego Velasco,
Carlos Elvira

Affiliations

Raúl Sanz-Horta: Department of Applied Macromolecular Chemistry, Institute of Polymer Science and Technology, Spanish National Research Council (ICTP-CSIC), Madrid, Spain
Ana Matesanz: Department of Electronic Technology, Universidad Carlos III de Madrid (UC3M), Madrid, Spain
Alberto Gallardo: Department of Applied Macromolecular Chemistry, Institute of Polymer Science and Technology, Spanish National Research Council (ICTP-CSIC), Madrid, Spain
Helmut Reinecke: Department of Applied Macromolecular Chemistry, Institute of Polymer Science and Technology, Spanish National Research Council (ICTP-CSIC), Madrid, Spain
José Luis Jorcano: Instituto de Investigación Sanitaria Gregorio Marañón, Madrid, Spain
Pablo Acedo: Department of Electronic Technology, Universidad Carlos III de Madrid (UC3M), Madrid, Spain
Diego Velasco: Fundación Instituto de Investigación Sanitaria de la Fundación Jiménez Díaz, Madrid, Spain
Carlos Elvira: Department of Applied Macromolecular Chemistry, Institute of Polymer Science and Technology, Spanish National Research Council (ICTP-CSIC), Madrid, Spain

DOI: https://doi.org/10.1177/20417314231190288
Journal volume & issue: Vol. 14

Abstract

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Fibrin is a promising natural polymer that is widely used for diverse applications, such as hemostatic glue, carrier for drug and cell delivery, and matrix for tissue engineering. Despite the significant advances in the use of fibrin for bioengineering and biomedical applications, some of its characteristics must be improved for suitability for general use. For example, fibrin hydrogels tend to shrink and degrade quickly after polymerization, particularly when they contain embedded cells. In addition, their poor mechanical properties and batch-to-batch variability affect their handling, long-term stability, standardization, and reliability. One of the most widely used approaches to improve their properties has been modification of the structure and composition of fibrin hydrogels. In this review, recent advances in composite fibrin scaffolds, chemically modified fibrin hydrogels, interpenetrated polymer network (IPN) hydrogels composed of fibrin and other synthetic or natural polymers are critically reviewed, focusing on their use for tissue engineering.

Published in Journal of Tissue Engineering

ISSN: 2041-7314 (Online)
Publisher: SAGE Publishing
Country of publisher: United Kingdom
LCC subjects: Science: Chemistry: Organic chemistry: Biochemistry
Website: https://journals.sagepub.com/home/tej

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