Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage

Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage

In the human body, joint cartilage is of great importance. It has long been a big therapeutic problem to fix joint cartilage lesions as it appears due to different conditions. Recent stories have shown that the cartilage replacement process must delay the extracellular (ECM) cartilage deterioration...

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Main Authors: Xiang Li, Yang Lu, Yuxin Wang, Shengji Zhou, Liangping Li, Fengchao Zhao
Format: Article
Language:English
Published: Taylor & Francis Group 2021-01-01
Series:Drug Delivery
Subjects:
articular cartilage
naringin
injectable hydrogels
inflammatory response
Online Access:http://dx.doi.org/10.1080/10717544.2021.1938752
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spelling doaj-972e7684f33442ff8f067abd827221332021-07-06T11:30:12ZengTaylor & Francis GroupDrug Delivery1071-75441521-04642021-01-012811290130010.1080/10717544.2021.19387521938752Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilageXiang Li0Yang Lu1Yuxin Wang2Shengji Zhou3Liangping Li4Fengchao Zhao5Department of Orthopaedic Surgery, The First Affiliated Hospital, Zhejiang University, School of MedicineDepartment of Orthopaedic Surgery, The First Affiliated Hospital, Zhejiang University, School of MedicineDepartment of Orthopaedic Surgery, The First Affiliated Hospital, Zhejiang University, School of MedicineDepartment of Orthopaedic Surgery, The First Affiliated Hospital, Zhejiang University, School of MedicineDepartment of Surgery, The Second Affiliated Hospital of Zhejiang University, School of MedicineDepartment of Orthopaedic Surgery, The First Affiliated Hospital, Zhejiang University, School of MedicineIn the human body, joint cartilage is of great importance. It has long been a big therapeutic problem to fix joint cartilage lesions as it appears due to different conditions. Recent stories have shown that the cartilage replacement process must delay the extracellular (ECM) cartilage deterioration and modulate the host's inflammation response. For the reconstruction of the articular cartilage, drug-loaded injectable hydrogels were developed. This hydrogel could retain the chondrocyte phenotype, but the host's inflammatory reaction could also be controlled. The bioglass (BG)/sodium alginate (SA) injectable hydrogels was combined with agarose (AG)/Naringin hydrogel in injectable thermal response for articular cartilage regeneration with a non-chargeable hydrogel that contains both Naringin and BG (Naringin–BG hydrogels). The Naringin–BG hydrogel has an adequate swelling ratio that encourages the fusion of tissue formed with host tissue and enables the gradual release of Naringin bioavailabilities enhanced in situ. The Naringin–BG hydrogel can upgrade the typical chondrocyte phenotype by upregulating aggrecan, SRY-box 9, and collagen type II alpha one chain. It may also stimulate the polarization of M2 macrophage, lower inflammations, and prevent ECM degradations through the decrease of the expressions of the indictable metalloproteinase-13 matrix, nitric oxide synthase, and metalloproteinase-1 matrix. The formed tissues were identical to normal tissues and firmly incorporated with the surrounding tissue after administering the Naringin–BG hydrogels into the rat model articular cartilage defects. Then the injectable Naringin–BG hydrogel increases the bioavailable content of Naringin and retains the chondrocyte phenotype.http://dx.doi.org/10.1080/10717544.2021.1938752articular cartilagenaringininjectable hydrogelsinflammatory response
collection DOAJ
language English
format Article
sources DOAJ
author Xiang Li
Yang Lu
Yuxin Wang
Shengji Zhou
Liangping Li
Fengchao Zhao
spellingShingle Xiang Li
Yang Lu
Yuxin Wang
Shengji Zhou
Liangping Li
Fengchao Zhao
Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage
Drug Delivery
articular cartilage
naringin
injectable hydrogels
inflammatory response
author_facet Xiang Li
Yang Lu
Yuxin Wang
Shengji Zhou
Liangping Li
Fengchao Zhao
author_sort Xiang Li
title Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage
title_short Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage
title_full Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage
title_fullStr Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage
title_full_unstemmed Thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage
title_sort thermo-responsive injectable naringin-loaded hydrogel polymerised sodium alginate/bioglass delivery for articular cartilage
publisher Taylor & Francis Group
series Drug Delivery
issn 1071-7544
1521-0464
publishDate 2021-01-01
description In the human body, joint cartilage is of great importance. It has long been a big therapeutic problem to fix joint cartilage lesions as it appears due to different conditions. Recent stories have shown that the cartilage replacement process must delay the extracellular (ECM) cartilage deterioration and modulate the host's inflammation response. For the reconstruction of the articular cartilage, drug-loaded injectable hydrogels were developed. This hydrogel could retain the chondrocyte phenotype, but the host's inflammatory reaction could also be controlled. The bioglass (BG)/sodium alginate (SA) injectable hydrogels was combined with agarose (AG)/Naringin hydrogel in injectable thermal response for articular cartilage regeneration with a non-chargeable hydrogel that contains both Naringin and BG (Naringin–BG hydrogels). The Naringin–BG hydrogel has an adequate swelling ratio that encourages the fusion of tissue formed with host tissue and enables the gradual release of Naringin bioavailabilities enhanced in situ. The Naringin–BG hydrogel can upgrade the typical chondrocyte phenotype by upregulating aggrecan, SRY-box 9, and collagen type II alpha one chain. It may also stimulate the polarization of M2 macrophage, lower inflammations, and prevent ECM degradations through the decrease of the expressions of the indictable metalloproteinase-13 matrix, nitric oxide synthase, and metalloproteinase-1 matrix. The formed tissues were identical to normal tissues and firmly incorporated with the surrounding tissue after administering the Naringin–BG hydrogels into the rat model articular cartilage defects. Then the injectable Naringin–BG hydrogel increases the bioavailable content of Naringin and retains the chondrocyte phenotype.
topic articular cartilage
naringin
injectable hydrogels
inflammatory response
url http://dx.doi.org/10.1080/10717544.2021.1938752
work_keys_str_mv AT xiangli thermoresponsiveinjectablenaringinloadedhydrogelpolymerisedsodiumalginatebioglassdeliveryforarticularcartilage
AT yanglu thermoresponsiveinjectablenaringinloadedhydrogelpolymerisedsodiumalginatebioglassdeliveryforarticularcartilage
AT yuxinwang thermoresponsiveinjectablenaringinloadedhydrogelpolymerisedsodiumalginatebioglassdeliveryforarticularcartilage
AT shengjizhou thermoresponsiveinjectablenaringinloadedhydrogelpolymerisedsodiumalginatebioglassdeliveryforarticularcartilage
AT liangpingli thermoresponsiveinjectablenaringinloadedhydrogelpolymerisedsodiumalginatebioglassdeliveryforarticularcartilage
AT fengchaozhao thermoresponsiveinjectablenaringinloadedhydrogelpolymerisedsodiumalginatebioglassdeliveryforarticularcartilage
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