BIOGLASS

作品数:29被引量:74H指数:5
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相关领域:医药卫生更多>>
相关作者:蔡晴杨小平张翠华贾晓龙程丹更多>>
相关机构:北京化工大学山东大学华南理工大学济南市中心医院更多>>
相关期刊:《New Journal of Glass and Ceramics》《International Journal of Oral Science》《Acta Metallurgica Sinica(English Letters)》《Journal of Materials Science & Technology》更多>>
相关基金:国家自然科学基金国家教育部博士点基金国家重点基础研究发展计划广东省重点科技攻关项目更多>>
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Update on the use of 45S5 bioactive glass in the treatment of bone defects in regenerative medicine
《World Journal of Orthopedics》2024年第3期204-214,共11页Dayane Maria Braz Nogueira Marcelie Priscila de Oliveira Rosso Daniela Vieira Buchaim Mariana Schutzer Ragghianti Zangrando Rogério Leone Buchaim 
Bone regeneration is a critical area in regenerative medicine,particularly in orthopedics,demanding effective biomedical materials for treating bone defects.45S5 bioactive glass(45S5 BG)is a promising material because...
关键词:Biocompatible materials BIOGLASS Bone regeneration 
In-situ deposition of apatite layer to protect Mg-based composite fabricated via laser additive manufacturing被引量:5
《Journal of Magnesium and Alloys》2023年第2期629-640,共12页Youwen Yang Changfu Lu Lida Shen Zhenyu Zhao Shuping Peng Cijun Shuai 
National Natural Science Foundation of China (51935014,52165043, 82072084, 81871498);Jiang Xi Provincial Natural Science Foundation of China (20192ACB20005,2020ACB214004);The Provincial Key R&D Projects of Jiangxi (20201BBE51012);Guangdong Province Higher Vocational Colleges&Schools Pearl River Scholar Funded Scheme (2018);Shenzhen Science and Technology Plan Project (JCYJ20170817112445033);Innovation Team Project on University of Guangdong Province(2018GKCXTD001);Technology Innovation Platform Project of Shenzhen Institute of Information Technology 2020(PT2020E002);China Postdoctoral Science Foundation(2020M682114);Open Research Fund of Jiangsu Key Laboratory of Precision and Micro-Manufacturing Technology。
Biodegradable magnesium(Mg) and its alloy show huge potential as temporary bone substitute due to the favorable biocompatibility and mechanical compatibility. However, one issue deserves attention is the too fast degr...
关键词:Laser addictive manufacture Mg-based composite Mesoporous bioglass In-situ deposition Degradation behavior 
Electrophoretic deposition of chitosan-bioglass^(■)-hydroxyapatite-halloysite nanotube composite coating
《Rare Metals》2022年第11期3850-3857,共8页Arman Molaei MardAli Yousefpour 
The composite coatings of chitosan(CS)-bioglass^(■)(BG)-hydroxyapatite(HA)-halloysite nanotube(HNT)were investigated and produced via electrophoretic deposition(EPD)technique.The utilization of CS as a dispersing,ble...
关键词:Four-component coating Composites BIOMATERIALS Electrophoretic deposition Corrosion 
Modulating degradation of sodium alginate/bioglass hydrogel for improving tissue infiltration and promoting wound healing被引量:8
《Bioactive Materials》2021年第11期3692-3704,共13页Xin Zhang Ying Li Zhijie Ma Dan He Haiyan Li 
the Natural Science Foundation of China(grant No.31771024 and 31971274);the Interdisciplinary Program of Shanghai Jiao Tong University(project number:ZH2018ZDA20).
More and more studies have recognized that the nanosized pores of hydrogels are too small for cells to normally grow and newly formed tissue to infiltrate,which impedes tissue regeneration.Recently,hydrogels with macr...
关键词:Sodium alginate BIOGLASS Hydrogels degradation Tissue infiltration Wound healing 
Hypoxia-mimicking 3D bioglass-nanoclay scaffolds promote endogenous bone regeneration被引量:6
《Bioactive Materials》2021年第10期3485-3495,共11页Xiao Zheng Xiaorong Zhang Yingting Wang Yangxi Liu Yining Pan Yijia Li Man Ji Xueqin Zhao Shengbin Huang Qingqing Yao 
This work is supported by the Chinese National Natural Science Foundation of China(31600773);Zhejiang Provincial Natural Science Foundation of China(LY18C100002).
Large bone defect repair requires biomaterials that promote angiogenesis and osteogenesis.In present work,a nanoclay(Laponite,XLS)-functionalized 3D bioglass(BG)scaffold with hypoxia mimicking property was prepared by...
关键词:3D bioglass scaffold HYPOXIA Angiogenesis OSTEOGENESIS Endogenous bone regeneration 
Bioglass enhances the production of exosomes and improves their capability of promoting vascularization被引量:5
《Bioactive Materials》2021年第3期823-835,共13页Zhi Wu Dan He Haiyan Li 
supported by the Natural Science Foundation of China(Grant No.31771024 and 31971274);the Interdisciplinary Program of Shanghai Jiao Tong University(Project Number:ZH2018ZDA20).
Recently,exosomes have been extensively applied in tissue regeneration.However,their practical applications are severely restricted by the limited exosome secretion capability of cells.Therefore,developing strategies ...
关键词:EXOSOMES Bioglass ion products VASCULARIZATION Regenerative medicine 
Nanotherapeutics for regeneration of degenerated tissue infected by bacteria through the multiple delivery of bioactive ions and growth factor with antibacterial/angiogenic and osteogenic/odontogenic capacity被引量:6
《Bioactive Materials》2021年第1期123-136,共14页Ahmed El-Fiqi Nandin Mandakhbayar Seung Bin Jo Jonathan C.Knowles Jung-Hwan Lee Hae-Won Kim 
a National Research Foundation of Korea(NRF)grant funded by the Ministry of Science and ICT(2019R1C1C1002490,2018R1A2B3003446);by the Global Research Development Center Program(2018K1A4A3A01064257);by the Priority Research Center Program provided by the Ministry of Education(2019R1A6A1A11034536)。
Therapeutic options are quite limited in clinics for the successful repair of infected/degenerated tissues.Although the prevalent treatment is the complete removal of the whole infected tissue,this leads to a loss of ...
关键词:Nanotherapeutics Mesoporous bioglass nanospheres Copper ion/Growth factor Antibacterial/angiogenesis Osteogenesis/odontogenesis 
Superior biocompatibility and comparable osteoinductive properties: Sodium-reduced fluoride-containing bioactive glass belonging to the CaO–MgO–SiO2 system as a promising alternative to 45S5 bioactive glass被引量:1
《Bioactive Materials》2020年第1期55-65,共11页S.I.Schmitz B.Widholz C.Essers M.Becker D.U.Tulyaganov A.Moghaddam I.Gonzalo de Juan F.Westhauser 
We thank Dr.Jorg Fellenberg for technical support and inspiring scientific discussion and Sebastian Wilkesmann and Frederike Hohenbild for their support in designing the figures;This study was funded by the research fund of the Heidelberg Orthopedic University Hospital.Dr.Fabian Westhauser is supported by the“Physician Scientist Program”-scholarship introduced by the Medical Faculty of the University of Heidelberg;This study contains parts of Sarah Isabelle Schmitz's doctoral thesis.
Bioactive glasses(BGs)are promising bone substitute materials.However,under certain circumstances BGs such as the well-known 45S5 Bioglass®(composition in wt%:45.0 SiO2,24.5 Na2O,24.5 CaO,6.0 P2O5)act cytotoxic due to...
关键词:45S5 Bioglass® Sodium-reduced bioactive glass Fluoride-containing bioactive glass Bone tissue engineering Human mesenchymal stromal cells 
Regulating effect of borosilicate bioglass extract on the osteoblast proliferation activity and osteogenesis signaling pathway function
《Journal of Hainan Medical University》2017年第21期13-16,共4页Xiao-Hui He Wu-Sheng Chen Yi-Fan Zhuang Dao-Qing Wang Xi-Yi Wang Xin-Hong Zhuang 
Objective: To study the regulating effect of borosilicate bioglass extract on the osteoblast proliferation activity and osteogenesis signaling pathway function. Methods: Osteoblasts MG-63 were cultured and divided int...
关键词:OSTEOBLAST BOROSILICATE BIOGLASS Proliferation ACTIVITY Signaling pathway 
Poly(L-lactide)-grafted Bioglass/Poly(lactide-co-glycolide) Scaffolds with Supercritical CO2 Foaming Reprocessing for Bone Tissue Engineering
《Chemical Research in Chinese Universities》2017年第3期499-506,共8页DONG Shujun WANG Lin LI Qiushi CHEN Xuesi LIU Shujie ZHOU Yanmin 
Supported by the Key Scientific and Technological Projects of Jilin Province, China(No.20170204041GX), the National Natural Science Foundation of China(Nos.81400487, 51673190, 51673187), the State Scholarship Fund of China(No. 201506175119) and the Research Fund of Jilin University, China(Nos.3D516B703431, 3R2161193431).
The bioglass particles/poly(lactide-co-glycolide)(BG/PLGA) scaffold has been extensively explored for biomedical applications due to its excellent advantages of mechanical property and controllable degradation rat...
关键词:Grafted bioglass Compisite scaffold Supercritical carbon dioxide foaming Bone formation 
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