GELATIN

作品数:313被引量:563H指数:10
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Injectable cartilage microtissues based on 3D cultureusing porous gelatin microcarriers for cartilagedefect treatment
《Regenerative Biomaterials》2025年第1期72-83,共12页Jing Zhu Qiuchen Luo Tiefeng Cao Guang Yang Lin Xiao 
supported by the National Natural Science Foundation of China(52173151,82002734,51803067);the Natural Science Foundation of Guangdong Province of China(2021A1515011084,2019A1515110312);the Fundamental Research Funds for the Central Universities(22qntd1302);the Shenzhen Outbound Postdoctoral Scientific Research Fund(SZBH202108).
Cartilage tissues possess an extremely limited capacity for self-repair,and current clinical surgical approaches for treating articular cartilage defects can only provide short-term relief. Despite significantadvances...
关键词:cartilage repair microtissue engineering MICROCARRIERS GELATIN BMSCS 
Methacrylated gelatin and platelet-rich plasma based hydrogels promote regeneration of critical-sized bone defects
《Regenerative Biomaterials》2024年第4期66-81,共16页Shichao Lian Zhiyu Mu Zhengchao Yuan Muhammad Shafiq Xiumei Mo Weidong Mu 
funded by Donghua University Postgraduate Innovation and Entrepreneurship Ability Training Program(yjssc2023002);supported by Science and Technology Commission of Shanghai Municipality,China(grant numbers 20S31900900 and 20DZ2254900);Sino German Science Foundation Research Exchange Center,China(M-0263);China Education Association for International Exchange(2022181).
Physiological repair of large-sized bone defects requires instructive scaffolds with appropriate mechanical properties,biocompatibility,biodegradability,vasculogenic ability and osteo-inductivity.The objective of this...
关键词:large-sized bone defect repair platelet-rich plasma HYDROGEL tissue scaffold gelatin methacrylate 
Tissue adhesive,ROS scavenging and injectable PRP-based‘plasticine’for promoting cartilage repair被引量:1
《Regenerative Biomaterials》2024年第1期94-107,共14页Shiao Li Dawei Niu Haowei Fang Yancheng Chen Jinyan Li Kunxi Zhang Jingbo Yin Peiliang Fu 
supported by the National Natural Science Foundation of China(Grant Nos 82272472,52373146,52173131,51973108);Natural Science Foundation of Shanghai(Grant No.22ZR1424700).
Platelet-rich plasma(PRP)that has various growth factors has been used clinically in cartilage repair.However,the short residence time and release time at the injury site limit its therapeutic effect.The present study...
关键词:cartilage regeneration granular hydrogel GELATIN tannic acid PRP 
Chitin nanocrystal-assisted 3D bioprinting of gelatin methacrylate scaffolds被引量:1
《Regenerative Biomaterials》2023年第1期1192-1201,共10页Zhengyun Ling Jian Zhao Shiyu Song Shuwei Xiao Pengchao Wang Ziyan An Zhouyang Fu Jinpeng Shao Zhuang Zhang Weijun Fu Shenghan Song 
supported by the National Natural Science Foundation of China(82270721);the National Natural Science Foundation of China(81873600).
In recent years,there has been an increasing focus on the application of hydrogels in tissue engineering.The integration of 3D bioprinting technology has expanded the potential applications of hydrogels.However,few co...
关键词:3D bioprinting gelatin methacrylate chitin nanocrystal HYDROGELS scaffolds 
A controllable gelatin-based microcarriers fabrication system for the whole procedures of MSCs amplification and tissue engineering被引量:1
《Regenerative Biomaterials》2023年第1期1303-1313,共11页Zixian Wang Xiuxiu Zhang Limin Xue Gangwei Wang Xinda Li Jianwei Chen Ruxiang Xu Tao Xu 
supported by the National Natural Science Foundation of China(Grant No.52075285);the Applied Basic Research Project of Sichuan Province(Grant No.2021YJ0563).
Biopolymer microbeads present substantial benefits for cell expansion,tissue engineering,and drug release applications.However,a fabrication system capable of producing homogeneous microspheres with high precision and...
关键词:microfluidics size-controllability gelatin-based microcarriers MSCs expansion tissue engineering 
Photothermal effective CeO_(2)NPs combined in thermosensitive hydrogels with enhanced antibacterial,antioxidant and vascularization performance to accelerate infected diabetic wound healing被引量:7
《Regenerative Biomaterials》2023年第1期1372-1387,共16页Zexiang Zheng Xing Yang Min Fang Jinhuan Tian Shuyun Zhang Lu Lu Changren Zhou Changpeng Xu Yong Qi Lihua Li 
supported by the National Key Research and Development Project(grant no.2019YFD0901905).
Chronic diabetic wound healing remains a formidable challenge due to susceptibility to bacterial infection,excessive oxidative stress,and poor angiogenesis.To address these issues,a sodium alginate(SA)based phototherm...
关键词:photothermal hydrogel sodium alginate cerium dioxide nanoparticle GELATIN infected diabetic wound healing 
Micropatterned composite membrane guides oriented cell growth and vascularization for accelerating wound healing被引量:1
《Regenerative Biomaterials》2023年第1期344-353,共10页Jiaqi Li Xulong Liu Weiyong Tao Yan Li Yingying Du Shengmin Zhang 
supported by the National Natural Science Foundation of China(31870960,32171331 and 82130061);the Fundamental Research Funds for the Central Universities,Huazhong University of Science and Technology(2019kfyXMBZ021 and 2020kfyXJJS115).
Skin defect is common in daily life,but repairing large skin defects remains a challenge.Using biomaterials to deliver biochemical or physical factors to promote skin tissue regeneration is of great significance for a...
关键词:TOPOLOGY cell behavior wound healing GELATIN polymer biomaterials 
Adipose tissue derived stromal cells in a gelatin-based 3D matrix with exclusive ascorbic acid signalling emerged as a novel neural tissue engineering construct:an innovative prototype for soft tissue被引量:2
《Regenerative Biomaterials》2022年第1期444-459,共16页Catherine Ann Martin Subathra Radhakrishnan Jose Luis Gòmez Ribelles Omana Anna Trentz Nivethaa EAK Mettu Srinivas Reddy Mohamed Rela Narayana Kalkura Subbaraya 
National Foundation for Liver Research(NFLR)for financially supporting the cell-based work in this project.CIBER-BBN is an initiative funded by the VI National R&D&I Plan 2008–2011,Iniciativa Ingenio 2010,Consolider Program.CIBER actions are financed by the Instituto de Salud CarlosⅢwith assistance from the European Regional Development Fund;the University Grants Commission,India for the award of the Basic Scientific Research(UGC-BSR)Faculty Fellowship[No.F.4-5(11)2019(BSR)].
The current study investigated a triad,which comprises of adipose tissue derived stem cells isolated from infrapatellar fat pad and gelatin/polyvinyl alcohol(PVA)-based matrix with exclusive ascorbic acid signalling.T...
关键词:adipose derived stem cells(ASCs) ascorbic acid soft tissue engineering TRIAD neuronal differentiation 
Three-dimensional bioprinting sodium alginate/gelatin scaffold combined with neural stem cells and oligodendrocytes markedly promoting nerve regeneration after spinal cord injury被引量:5
《Regenerative Biomaterials》2022年第1期522-532,共11页Shuo Liu Hui Yang Dong Chen Yuanyuan Xie ChenXu Tai Liudi Wang Peng Wang Bin Wang 
supported by following grants:the National Key Research and Development Program of China(grant number 2017YFA0104304);the National Natural Science Foundation of China(grant numbers 81571213,82070459 to B.W.,grant numbers 81800583 to Y.Y.X.);Key Project of Jiangsu Province(grant number BE2020765 to B.W.);Nanjing Medical Science and Technique Development Foundation(grant numbers QRX17006,QRX17057,ZKX20016 to B.W.);Nanjing Medical Science and Technique Development Foundation(grant number YKK20071 to H.Y.);Jiangsu Provincial Plan for Mass Entrepreneurship and Innovation(2019,B.W.);Project of Modern Hospital Management and Development Institute,Nanjing University/Aid project of Nanjing Drum Tower Hospital Health,Education&Research Foundation(grant number NDYG2020030 to B.W.).
Accumulating research has indicated that the transplantation of combined stem cells and scaffolds is an effective method for spinal cord injury(SCI).The development of three-dimensional(3D)bioprinting technology can m...
关键词:three-dimensional bioprinting neural stem cell OLIGODENDROCYTES spinal cord injury 
Porous tantalum-composited gelatin nanoparticles hydrogel integrated with mesenchymal stem cell-derived endothelial cells to construct vascularized tissue in vivo被引量:2
《Regenerative Biomaterials》2021年第6期92-105,共14页Zhenhua Zhao Mang Wang Fei Shao Ge Liu Junlei Li Xiaowei Wei Xiuzhi Zhang Jiahui Yang Fang Cao Qiushi Wang Huanan Wang Dewei Zhao 
supported by Postdoctoral Science Foundation of China(No.194012);National Natural Science Foundation of China(No.82172398);Science&Technological Convenience Foundation of Dalian(No.2020JJ27SN076);Doctoral Research Starting Foundation of Affiliated Zhongshan Hospital of Dalian University(No.DLDXZSYY-BK201809).
The ideal scaffold material of angiogenesis should have mechanical strength and provide appropriate physiological microporous structures to mimic the extracellular matrix environment.In this study,we constructed an in...
关键词:porous tantalum gelatin nanoparticles hydrogel bone marrow mesenchymal stem cell endothelial cell VASCULARIZATION 
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