Hyaluronic Acid-based Biomimetic Hydrogels for Tissue Engineering and Medical Applications

Hyaluronic acid (HA), an essential component of extracellular matrix (ECM), plays an important role in various cellular activities, including migration, proliferation, and differentiation. Not only its structural and biological properties, but also properties such as biocompatibility, biodegradabili...

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Published in	Biotechnology and bioprocess engineering Vol. 26; no. 4; pp. 503 - 516
Main Authors	An, Soohwan, Choi, Soojeong, Min, Sungjin, Cho, Seung-Woo
Format	Journal Article
Language	English
Published	Seoul The Korean Society for Biotechnology and Bioengineering 01.08.2021 Springer Nature B.V 한국생물공학회
Subjects	Biocompatibility biocompatible materials Biodegradability Biodegradation Biological properties Biomaterials Biomedical materials Biomimetics Biomolecules bioprocessing Biotechnology Cellular structure Chemical modification Chemistry Chemistry and Materials Science Extracellular matrix Fabrication Functional groups Hyaluronic acid Hydrogels Immunogenicity Industrial and Production Engineering Invited Review Paper medicine Polymers Regenerative medicine Tissue engineering 생물공학 biomimetic hydrogel tissue engineering biomedical applications hyaluronic acid
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Abstract	Hyaluronic acid (HA), an essential component of extracellular matrix (ECM), plays an important role in various cellular activities, including migration, proliferation, and differentiation. Not only its structural and biological properties, but also properties such as biocompatibility, biodegradability, and low immunogenicity make HA a promising biomaterial for tissue engineering and regenerative medicine. HA has been widely utilized as a hydrogel to form complex polymer networks, which can be chemically modified owing to the abundance of functional groups. To closely recapitulate native tissues, many approaches have been developed through chemical modification, incorporation of various biomaterials and biomolecules based on biomimetics, and fabrication techniques. Thus, HA-based hydrogels can be designed to exhibit specific properties or functions for targeted tissues, capable of maintaining or replacing structural and biological properties. This review highlights recent efforts in developing HA-based hydrogels as ECM-mimetic scaffolds and bio-inspired functional biomaterials in the fields of tissue engineering and regenerative medicine as well as their medical applications.
AbstractList	Hyaluronic acid (HA), an essential component of extracellular matrix (ECM), plays an important role in various cellular activities, including migration, proliferation, and differentiation. Not only its structural and biological properties, but also properties such as biocompatibility, biodegradability, and low immunogenicity make HA a promising biomaterial for tissue engineering and regenerative medicine. HA has been widely utilized as a hydrogel to form complex polymer networks, which can be chemically modified owing to the abundance of functional groups. To closely recapitulate native tissues, many approaches have been developed through chemical modification, incorporation of various biomaterials and biomolecules based on biomimetics, and fabrication techniques. Thus, HA-based hydrogels can be designed to exhibit specific properties or functions for targeted tissues, capable of maintaining or replacing structural and biological properties. This review highlights recent efforts in developing HA-based hydrogels as ECM-mimetic scaffolds and bio-inspired functional biomaterials in the fields of tissue engineering and regenerative medicine as well as their medical applications. Hyaluronic acid (HA), an essential component of extracellular matrix (ECM), plays an important role in various cellular activities, including migration, proliferation, and differentiation. Not only its structural and biological properties, but also properties such as biocompatibility, biodegradability, and low immunogenicity make HA a promising biomaterial for tissue engineering and regenerative medicine. HA has been widely utilized as a hydrogel to form complex polymer networks, which can be chemically modified owing to the abundance of functional groups. To closely recapitulate native tissues, many approaches have been developed through chemical modification, incorporation of various biomaterials and biomolecules based on biomimetics, and fabrication techniques. Thus, HA-based hydrogels can be designed to exhibit specific properties or functions for targeted tissues, capable of maintaining or replacing structural and biological properties. This review highlights recent efforts in developing HA-based hydrogels as ECM-mimetic scaffolds and bio-inspired functional biomaterials in the fields of tissue engineering and regenerative medicine as well as their medical applications. KCI Citation Count: 0
Author	Min, Sungjin Cho, Seung-Woo Choi, Soojeong An, Soohwan
Author_xml	– sequence: 1 givenname: Soohwan surname: An fullname: An, Soohwan organization: Department of Biotechnology, Yonsei University – sequence: 2 givenname: Soojeong surname: Choi fullname: Choi, Soojeong organization: Department of Biotechnology, Yonsei University – sequence: 3 givenname: Sungjin surname: Min fullname: Min, Sungjin organization: Department of Biotechnology, Yonsei University – sequence: 4 givenname: Seung-Woo surname: Cho fullname: Cho, Seung-Woo email: seungwoocho@yonsei.ac.kr organization: Department of Biotechnology, Yonsei University
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SubjectTerms	Biocompatibility biocompatible materials Biodegradability Biodegradation Biological properties Biomaterials Biomedical materials Biomimetics Biomolecules bioprocessing Biotechnology Cellular structure Chemical modification Chemistry Chemistry and Materials Science Extracellular matrix Fabrication Functional groups Hyaluronic acid Hydrogels Immunogenicity Industrial and Production Engineering Invited Review Paper medicine Polymers Regenerative medicine Tissue engineering 생물공학
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