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International Journal of Medical Laboratory
Shahid Sadoughi University of Medical Sciences
Thu, Apr 25, 2024
[Archive]
Volume 9, Issue 1 (February 2022)
IJML 2022, 9(1): 6-16 |
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Rajabi A, Pourentezari M, Dortaj H, Shahedi A, Yadegari M, Izadi S, et al . In Vitro Study of Hyaluronic Acid Based Scaffolds and Its Effect on Cartilage Regeneration. IJML 2022; 9 (1) :6-16
URL: http://ijml.ssu.ac.ir/article-1-411-en.html
URL: http://ijml.ssu.ac.ir/article-1-411-en.html
Ali Rajabi 
, Majid Pourentezari * , Hengameh Dortaj , Abbas Shahedi , Maryam Yadegari , Sepideh Izadi , Fatemeh Zakizadeh , Zeinolabedin Sharifian Dastjerdi
, Majid Pourentezari * , Hengameh Dortaj , Abbas Shahedi , Maryam Yadegari , Sepideh Izadi , Fatemeh Zakizadeh , Zeinolabedin Sharifian Dastjerdi
Yazd Neuroendocrine Research Center, Shahid Sadoughi University of Medical Sciences, Yazd, Iran
Abstract: (624 Views)
Recently, it has been proven that cartilage healing is difficult. The most commonly used treatments are autogenously cartilage grafting and allogeneic bone grafting, but grafts cannot fully meet treatment goals because of source, price, safety, and other concerns. Thus, a combination of biological materials and tissue engineering technology has become a recent trend in studies. Among the studies performed on tissue engineering cartilage materials are hydrogels that exhibit biological activity, post-decomposition adsorption, flexibility, and easy preparation. Cell-containing hydrogels are often used in cartilage tissue engineering because of their biocompatibility, ease of use, and ability to adapt to different defects. Hydrogels are used to mimic extracellular matrices. Although multiple materials can configure and form hydrogels, hyaluronic acid and its derivatives are distinguished. Hyaluronic acid (HA) is an extracellular molecule with several physical and biological functions found in many tissues, including cartilage. HA is formed in several biomaterial systems and scaffolding. HA hydrogels have many interests, including increased adhesion, cell proliferation, and wound healing. In addition, they represent adequate biological acting for stimulating a microenvironment for the survival of cells. However, their disadvantages include a slow degradation rate and low mechanical properties. Here, HA-based hydrogels and their applications in cartilage tissue engineering are briefly reviewed.
Type of Study: Research |
Subject:
Genetics/ Biotechnology
Received: 2021/05/9 | Accepted: 2022/02/28 | Published: 2021/03/29
Received: 2021/05/9 | Accepted: 2022/02/28 | Published: 2021/03/29
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