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《Engineering》: 作品数：1995被引量：7856H指数：35; 导出分析报告; 主办单位：Center for Strategic Studies,CAE,China;Higher Education Press,China; 最新期次：2025年3期更多>>; 发文主题：ENGINEERINGCHALLENGESMACHINE_LEARNINGEDITORIALREVIEW更多>>; 发文领域：医药卫生自然科学总论自动化与计算机技术环境科学与工程更多>>; 发文基金：国家自然科学基金国家重点基础研究发展计划中国博士后科学基金北京市自然科学基金更多>>

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

Tissue Engineering and Spinal Cord Injury Repair: 《Engineering》2025年第3期60-72,共13页Lai Xu Songlin Zhou Xiu Dai Xiaosong Gu Zhaolian Ouyang; supported by grants from the National Natural Science Foundation of China(92368207);the Chinese Academy of Engineering(2023-SBZD-11);the Natural Science Foundation of Jiangsu Province(BK20232023).; Tissue engineering and regenerative medicine is a new interdisciplinary subject integrating life science,material science,engineering technology,and clinical medicine.Over the last ten years,significant advancements h...; 关键词：Tissue engineering Spinal cord injury Regenerative microenvironment

The Interface of Gene Editing with Regenerative Medicine: 《Engineering》2025年第3期73-100,共28页Veronica E.Farag Elsie A.Devey Kam W.Leong; supported by the National Institutes of Health(UH3NS115598).; The potential of regenerative medicine in the clinical space is vast,given its ability to repair and replace damaged tissues,restore lost functions due to age or disease,and transform personalized therapy.Traditional ...; 关键词：CRISPR/Cas9 Tissue engineering Regenerative medicine Gene editing Stem cell transplantation Disease models

Ultrasound-Enabled Nanomedicine for Tumor Theranostics: 《Engineering》2025年第3期101-129,共29页Kairui Liu Boyuan Jing Jun Kang Lei Han Jin Chang; financially supported by the National Natural Science Foundation of China(32271440);the Tianjin Health Research Project(TJWJ2023ZD001).; Ultrasound-enabled nanomedicine leverages ultrasound to amplify the capabilities of engineered nanosystems,paving the way for innovative diagnostic and therapeutic breakthroughs in conventional nanomedicine.As a burge...; 关键词：ULTRASOUND NANOMEDICINE Tumor diagnosis Drug delivery Tumor therapy

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

Novel Fibers Make Electronic Textiles Smart Without Batteries or Chips: 《Engineering》2025年第3期3-5,共3页Jennifer Welsh; An April 2024 report in the journal Science suggests that“smart”or“intelligent”textiles are a step closer to making the leap from the lab to real life[1,2].The study details an innovative fiber that gathers energy...; 关键词：gathers energy intelligent interaction intelligent textiles industrial applications energy harvesting fibers touch response medical applications electronic textiles

Very Low Earth Orbit Satellites Promise Greater Resolution...and Less Privacy: 《Engineering》2025年第3期6-8,共3页Chris Palmer; In February 2025,a startup satellite manufacturer,Albedo(Broomfield,CO,USA)is expected to launch its first satellite,Clarity-1,into orbit aboard SpaceX’s Transporter-13,a Falcon 9 rideshare mission[1].Like many imagi...; 关键词：imaging satellitesclarity s spatial resolution high resolution imaging satellites low earth orbit aerial photos

The Overcoring Technique for Precise Measurement of In Situ Rock Stress at Great Depths:Challenges and Solutions: 《Engineering》2025年第3期9-15,共7页Peng Li Yan Liu Meifeng Cai Shengjun Miao Yuan Li Yunjin Hu Mostafa Gorjian; financially supported by the National Key Research and Development Program of China(2022YFC3004601);the National Natural Science Foundation of China(52204084);the Science,Technology and Innovation Project of Xiongan New Area(2023XAGG0061).; 1.Introduction Various geological phenomena on the surface and in the interior of the Earth,as well as their associated physical and chemical pro-cesses,are closely correlated with the action of in situ rock stress[1-...; 关键词：situ rock stress earths energy equilibrium plate driving mechanisms earthquake mechanisms overcoring technique geological phenomena physical chemical processes

《Engineering》