BIOPRINTING

作品数:269被引量:638H指数:12
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相关领域:医药卫生自动化与计算机技术更多>>
相关机构:第三军医大学西南医院更多>>
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相关基金:国家自然科学基金中国博士后科学基金北京市自然科学基金广东省自然科学基金更多>>
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Chitosan:A Scaffold Biomaterial in 3D Bone Tissue Engineering and Its Biological Activities
《集成技术》2025年第2期86-108,共23页Gurung Chetali Nawaz Aamir Udduttulla Anjaneyulu REN Peigen 
国家重点研发计划项目(2021YFA0719303);国家自然科学基金项目(32271166,32100572);广东省基础与应用基础研究基金项目(2024A1515013017);深圳市科技计划项目(JCYJ20200109115441918,KCXFZ2020122113400002,JCYJ20210324102013035,JCYJ20210324123610028)。
The ability to replicate the microenvironment of the human body through the fabrication of scaffolds is a significant achievement in the biomedical field.However,the search for the ideal scaffold is still in its infan...
关键词:CHITOSAN 3D bioprinting bone tissue engineering SCAFFOLD tissue regeneration chitosan derivative 
3D printing for tissue/organ regeneration in China
《Bio-Design and Manufacturing》2025年第2期169-242,I0001,I0002,共76页Chaofan He Jiankang He Chengtie Wu Changshun Ruan Qi Gu Yongqiang Hao Yang Wu Shuo Bai Xiaoxiao Han Liliang Ouyang Jun Yin Hongzhao Zhou Zhuo Xiong Maobin Xie Lei Shao Jing Nie Liang Ma Cijun Shuai Changchun Zhou Xin Zhao Xuetao Shi Mengfei Yu Jiayin Fu Peng Wen Huixia Xuan Yuan Pang Yan’en Wang Yuan Sun Ziqi Gao Abdellah Aazmi Jingbo Zhang Tianhong Qiao Qixiang Yang Ke Yao Mao Mao Jianxin Hao Pinpin Wang Jirong Yang Huawei Qu Xinhuan Wang Xin Liu Shen Ji Shasha Liu Jingke Fu Bingxian Lu Mohan Wu Feng Chen Zihao Zheng Boqing Zhang Muyuan Chai Chaoying Zhang Mouyuan Sun Bo Peng Huayong Yang Yong He 
supported by the National Natural Science Foundation of China(Nos.52325504,52235007,and T2121004).
As surgical procedures transition from conventional resection to advanced tissue-regeneration technologies,human disease therapy has witnessed a great leap forward.In particular,three-dimensional(3D)bioprinting stands...
关键词:3D printing BIOPRINTING Tissue engineering Regenerative medicine 
Advancements in 3D skin bioprinting:processes,bioinks,applications and sensor integration
《International Journal of Extreme Manufacturing》2025年第1期237-275,共39页I Deniz Derman Taino Rivera Laura Garriga Cerda Yogendra Pratap Singh Shweta Saini Hasan Erbil Abaci Ibrahim T Ozbolat 
supported by National Institutes of Health Award(Nos.R01DE028614(I T O)and R21AR082668(I T O)),and 2236 CoCirculation2 of TUBITAK award(No.121C359(I T O));supported by The Assistant Secretary of Defense for Health Affairs endorsed by the Department of Defense,in the amount of($1986275);through the Peer Reviewed Medical Research Program under Award Number(No.HT9425-23-1-0487)。
This comprehensive review explores the multifaceted landscape of skin bioprinting,revolutionizing dermatological research.The applications of skin bioprinting utilizing techniques like extrusion-,droplet-,laser-and li...
关键词:3D bioprinting skin models skin tissue engineering BIOFABRICATION biosensors 
Bioengineered skin-substitutes incorporating rete-ridges using a bioprinting process
《International Journal of Extreme Manufacturing》2025年第1期522-541,共20页SooJung Chae SeoYul Jo Dogeon Yoon Ji-Seon Lee WonJin Kim JaeYoon Lee Ji-Hye Park You-rin Kim Wook Chun GeunHyung Kim 
supported by the‘Korea National Institute of Health’(KNIH)research project(Project No.2022ER130502);the National Research Foundation of Korea(NRF)Grant funded by the Korea Government(MSIT)(No.2021R1A2C20060331222182102840102)。
Bioprinting is a widely used technique for creating three-dimensional,complex,and heterogeneous artificial tissue constructs that are biologically and biophysically similar to natural tissues.The skin is composed of s...
关键词:collagen FIBRINOGEN basement membrane skin substitute BIOPRINTING 
3D bioprinted chondrogenic gelatin methacrylate-poly(ethylene glycol)diacrylate composite scaffolds for intervertebral disc restoration
《International Journal of Extreme Manufacturing》2025年第1期610-621,共12页Maria D Astudillo Potes Maryam Tilton Indranath Mitra Xifeng Liu Babak Dashtdar Emily T Camilleri Benjamin D Elder Lichun Lu 
supported by NIH Grant(T32GM065841),Mayo Foundation for Education and Research.
Degenerative spine pathologies,including intervertebral disc(IVD)degeneration,present a significant healthcare challenge due to their association with chronic pain and disability.This study explores an innovative appr...
关键词:intervertebral disc regeneration 3D bioprinting gelatin-based hydrogels mesenchymal stem cell spheroids tissue engineering 
3D bioprinting of a dermal scaffold for full-thickness skin tissue regeneration
《Bio-Design and Manufacturing》2025年第1期68-84,I0039-I0041,共20页Lu Han Zixian Liu Meng Li Zhizhong Shen Jianming Wang Shengbo Sang 
supported by the National Natural Science Foundation of China(Nos.51975400 and 62031022);the Shanxi Provincial Key Medical Scientific Research Project(No.2020XM06);the Shanxi Provincial Basic Research Project(Nos.202103021221006,20210302123040,and 202103021223069);the Scientific and Technological Innovation Programs of Higher Education Institutions in Shanxi(No.2021L044);the Shanxi-Zheda Institute of Advanced Materials and Chemical Engineering(No.2022SX-TD026).
Dermal substitutes have provided a template for the regeneration and reconstruction of the dermis.However,the healed skin tissue often exhibits abnormal morphology and functionality,including scarring and inflammation...
关键词:3D printing Dermal scaffold PHOTO-CROSS-LINKING Skin tissue regeneration 
3D bioprinted advanced cartilage organoids with engineered magnetic nanoparticles polarized-BMSCs/alginate/gelatin for cartilage tissue regeneration
《Nano Research》2025年第2期541-556,共16页Zhiyu Ding Junjie Huang Yijun Ren Ning Tang Xin Luo Huancheng Zhu Xu Cao Ming Zhao Song Wu 
This work was financially supported by Science and Technology Innovation Leading Plan of High-Tech Industry in Hunan Province(No.2020SK2011);The National Natural Science Foundation of China-Youth Science Fund(No.82204538);Macao Special Administrative Region Science and Technology Development Fund(No.0007/2021/AKP).
Cartilage defects are commonly observed in orthopedic clinical studies.Owing to the unique structure of cartilage tissue,current clinical treatments cannot fully address this issue.Cartilage organoids are three-dimens...
关键词:magnetic nanoparticles cell polarization three-dimensional(3D)bioprinting cartilage organoid cartilage repair 
Optimization-based conformal path planning for in situ bioprinting during complex skin defect repair
《Bio-Design and Manufacturing》2025年第1期1-19,I0001,共20页Wenxiang Zhao Chuxiong Hu Yunan Wang Shize Lin Ze Wang Tao Xu 
supported in part by the National Natural Science Foundation of China(Nos.52205532 and 624B2077);the National Key Research and Development Program of China(No.2023YFB4302003).
The global demand for effective skin injury treatments has prompted the exploration of tissue engineering solutions.While three-dimensional(3D)bioprinting has shown promise,challenges persist with respect to achieving...
关键词:In situ bioprinting Path planning Robot control Skin injury repair 
Leveraging 3D printing in microbial electrochemistry research:current progress and future opportunities
《Frontiers of Environmental Science & Engineering》2025年第1期1-22,共22页Mingyi Xu Miriam Fernandez-Avila Cobo Danfei Zeng Yifeng Zhang 
the Ministry of Foreign Affairs of Denmark(No.21-08-DTU,Denmark);VILLUM FONDEN(No.40828,Denmark);Independent Research Fund Denmark(Project 1,No.171114,Denmark);Horizon Europe project BIOMETHAVERSE(No.101084200)for partly funding the research.
Microbial electrochemical system(MES)offers sustainable solutions for environmental applications such as wastewater treatment,energy generation,and chemical synthesis by leveraging microbial metabolism and electrochem...
关键词:3D printing BIOPRINTING Microbial electrochemical system Reactor body design Novel electrode fabrication 
Advancements and Applications of 4D Bioprinting in Biomedical Science
《Chinese Journal of Polymer Science》2025年第1期18-39,I0006,共23页Hakan Eskizengin Can Ergun 
the Scientific and Technological Research Council of Turkey (TÜBİTAK) for their support through the TÜBİTAK 2211-A National PhD Fellowship Program
The constraints of traditional 3D bioprinting are overcome by 4D bioprinting integrating with adaptable materials over time,resulting in dynamic,compliant,and functional biological structures.This innovative approach ...
关键词:Tissue engineering Four-dimensional bioprinting Three-dimensional bioprinting HYDROGELS Stimuli sensitive polymers 
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