BIOMATERIALS

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相关机构:上海交通大学西安交通大学清华大学西北工业大学更多>>
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Biomaterial-based strategies:a new era in spinal cord injury treatment
《Neural Regeneration Research》2025年第12期3476-3500,共25页Shihong Zhu Sijun Diao Xiaoyin Liu Zhujun Zhang Fujun Liu Wei Chen Xiyue Lu Huiyang Luo Xu Cheng Qiang Liao Zhongyu Li Jing Chen 
supported by the Sichuan Science and Technology Program,No.2023YFS0164(to JC);the National Natural Science Foundation of China,No.82401629(to XL);the Natural Science Foundation of Sichuan Province,No.2024NSFSC1646(to XL);the China Postdoctoral Science Foundation,Nos.GZC20231811(to XL)and 2024T170601(to XL)。
Enhancing neurological recovery and improving the prognosis of spinal cord injury have gained research attention recently.Spinal cord injury is associated with a complex molecular and cellular microenvironment.This co...
关键词:BIOMATERIALS growth factors NANOPARTICLES neural regeneration scaffolds spinal cord injury stem cells therapy strategies tissue engineering 
Stiffness-tunable biomaterials provide a good extracellular matrix environment for axon growth and regeneration
《Neural Regeneration Research》2025年第5期1364-1376,共13页Ronglin Han Lanxin Luo Caiyan Wei Yaru Qiao Jiming Xie Xianchao Pan Juan Xing 
supported by the Natio`nal Natural Science Foundation of China,No. 81801241;a grant from Sichuan Science and Technology Program,No. 2023NSFSC1578;Scientific Research Projects of Southwest Medical University,No. 2022ZD002 (all to JX)。
Neuronal growth, extension, branching, and formation of neural networks are markedly influenced by the extracellular matrix—a complex network composed of proteins and carbohydrates secreted by cells. In addition to p...
关键词:ALGINATE axon growth BIOMATERIALS extracellular matrix neural repair neurons NEUROREGENERATION POLYACRYLAMIDE POLYDIMETHYLSILOXANE stiffness 
Innovations and Progress in Tissue Engineering Theory and Technology
《Engineering》2025年第3期1-2,共2页Xiaosong Gu 
Tissue engineering and regenera-tive medicine have shown signifi-cant potential for repairing and regenerating damaged tissues and can be used to provide personalized treatment plans,with broad applica-tion prospects....
关键词:bone regeneration polymer materials repairing regenerating damaged tissues BIOCERAMICS minimally invasive implantable biomaterials regenerative medicine tissue engineering 
Minimally Invasive Implantable Biomaterials for Bone Reconstruction
《Engineering》2025年第3期23-46,共24页Feng Han Zhao Liu Qiang Wei Luguang Ding Li Yu Jiayuan Wang Huan Wang Weidong Zhang Yingkang Yu Yantao Zhao Song Chen Bin Li 
supported by the National Natural Science Foundation of China(81925027,82002275,and 32271421);the Priority Academic Program Development of Jiangsu Higher Education Institutions.
Bone injuries induced by accidents or bone-related disease have dramatically increased in the past decades.The application of biomaterials has become an inextricable part of treatment for new bone formation and regene...
关键词:BONE REGENERATION Implantable biomaterials Biomedical applications Minimal intervention 
Current Advances of Artificial Ligaments for Anterior Cruciate Ligament Reconstruction:From Biocompatibility to Bioactivity
《Engineering》2025年第3期47-59,共13页Haozhi Zhang Xin Chen Michael Tim-Yun Ong Lei Lei Lizhen Zheng Bingyang Dai Wenxue Tong Bruma Sai-Chuen Fu Jiankun Xu Patrick Shu-Hang Yung Ling Qin 
supported by the Areas of Excellence Scheme(AoE/M402/20);the Knowledge Transfer Project Fund(KPF24GWP05);the IdeaBooster Fund(IDBF24MED12);the HKSTP Ideation Fund(Ideation 23-0698);the ITC Technology Startup Support Scheme for Universities(TSU24MED05).
Anterior cruciate ligament(ACL)injuries are frequently caused by sports injuries and trauma.In cases involving complete tears,ACL reconstruction(ACLR)surgery is the only way to restore the ligament’s integrity.When s...
关键词:Anterior cruciate ligament reconstruction Artificial ligament BIOMATERIALS Graft-bone integration Intra-articular tissue remodeling 
Optimization and advances in negative pressure wound therapy for the management of necrotizing fasciitis in the upper limb
《World Journal of Orthopedics》2025年第3期121-128,共8页Peng Wang Zhi-Peng Li Yu-Hua Ruan Peng Yan Wei-Ping Fu Chang-Jiang Zhang 
Supported by Henan Province Key Research and Development Program,No.231111311000;Henan Provincial Science and Technology Research Project,No.232102310411;Henan Province Medical Science and Technology Key Project,No.LHGJ20220566 and No.LHGJ20240365;Henan Province Medical Education Research Project,No.WJLX2023079;Zhengzhou Medical and Health Technology Innovation Guidance Program,No.2024YLZDJH022.
Necrotizing fasciitis(NF)is a rapidly progressing,life-threatening soft tissue infection,with upper limb NF posing a particularly serious threat to patient survival and quality of life.Negative pressure wound therapy(...
关键词:Artificial intelligence BIOMATERIALS Hyperbaric oxygen therapy Necrotizing fasciitis Negative pressure wound therapy Personalized medicine Tissue engineering Wound healing 
Advances in the Development of Gradient Scaffolds Made of Nano‑Micromaterials for Musculoskeletal Tissue Regeneration
《Nano-Micro Letters》2025年第3期455-500,共46页Lei Fang Xiaoqi Lin Ruian Xu Lu Liu Yu Zhang Feng Tian Jiao Jiao Li Jiajia Xue 
supported by the National Natural Science Foundation of China(Grant No.52473121,52403370 and 52221006);Fundamental Research Funds for the Central Universities(buctrc202020,buctrc202312).
The intricate hierarchical structure of musculoskeletal tissues,including bone and interface tissues,necessitates the use of complex scaffold designs and material structures to serve as tissue-engineered substitutes.T...
关键词:Gradient scaffolds Musculoskeletal tissues Advanced manufacturing BIOMATERIALS Tissue regeneration 
Skeletal interoception and prospective application in biomaterials for bone regeneration
《Bone Research》2025年第1期1-14,共14页Long Bai Jilong Li Guangfeng Li Dongyang Zhou Jiacan Su Changsheng Liu 
National Natural Science Foundation of China(82230071,82172098);Integrated Project of Major Research Plan of National Natural Science Foundation of China(92249303);Shanghai Committee of Science and Technology(23141900600,Laboratory Animal Research Project);Shanghai Clinical Research Plan of SHDC2023CRT01;Young Elite Scientist Sponsorship Program by China Association for Science and Technology(YESS20230049)。
Accumulating research has shed light on the significance of skeletal interoception,in maintaining physiological and metabolic homeostasis related to bone health.This review provides a comprehensive analysis of how ske...
关键词:HOMEOSTASIS BIOMATERIALS utilize 
Unleashing the Potential of Electroactive Hybrid Biomaterials and Self‑Powered Systems for Bone Therapeutics
《Nano-Micro Letters》2025年第2期463-497,共35页Shichang Liu Farid Manshaii Jinmiao Chen Xinfei Wang Shaolei Wang Junyi Yin Ming Yang Xuxu Chen Xinhua Yin Yunlei Zhou 
support of the National Natural Science Foundation of China(Grant No.52205593);Shaanxi Natural Science Foundation Project(2024JC-YBMS-711).
The incidence of large bone defects caused by traumatic injury is increasing worldwide,and the tissue regeneration process requires a long recovery time due to limited self-healing capability.Endogenous bioelectrical ...
关键词:Electroactive biomaterials Self-powered bioelectronics Bone regeneration Bone tissue 
3D Printing of Tough Hydrogel Scaffolds with Functional Surface Structures for Tissue Regeneration
《Nano-Micro Letters》2025年第2期18-45,共28页Ke Yao Gaoying Hong Ximin Yuan Weicheng Kong Pengcheng Xia Yuanrong Li Yuewei Chen Nian Liu Jing He Jue Shi Zihe Hu Yanyan Zhou Zhijian Xie Yong He 
supported by the Innovative Research Group Project of the National Natural Science Foundation of China(T2121004);Key Programme(52235007);National Outstanding Youth Foundation of China(52325504).
Hydrogel scaffolds have numerous potential applications in the tissue engineering field.However,tough hydrogel scaffolds implanted in vivo are seldom reported because it is difficult to balance biocompatibility and hi...
关键词:3D printing Tough hydrogel scaffold Functional surface structure Tissue regeneration BIOMATERIALS 
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