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   harnessing the power of electroconductive polymers for breakthroughs in tissue engineering and regenerative medicine  
   
نویسنده ghovvati mahsa ,bolouri keivan ,guo lea ,kaneko naoki ,jin xuru ,xu yi ,hua zhidan ,lei ying
منبع materials chemistry horizons - 2023 - دوره : 2 - شماره : 3 - صفحه:195 -206
چکیده    Electroconductive polymers (ecps) have garnered increasing attention in the realms of tissue engineering and regenerative medicine due to their unique physicochemical properties, including their ability to conduct electrical signals. these polymers, with inherent conductivity mirroring that of native tissues, present a promising platform for scaffolds that can modulate cell behavior and tissue formation through electrical stimulation. the biocompatibility, tunable conductivity, and topographical features of ecps enhance cellular adhesion, proliferation, and differentiation. furthermore, their electrical properties have been shown to augment nerve regeneration, cardiac tissue repair, and musculoskeletal tissue formation. combined with other biomaterials or biological molecules, ecp-based composites exhibit synergistic effects, promoting enhanced tissue regeneration. moreover, the integration of ecps with cutting-edge technologies such as 3d printing and microfluidics propels the design of sophisticated constructs for tissue engineering applications. this paper concludes with the challenges faced in the clinical translation of ecp-based scaffolds and provides perspectives on the future trajectory of ecps in regenerative medicine. the synthesis of ecps with emerging biotechnologies has the potential to revolutionize treatments, bridging the gap between traditional regenerative approaches and sophisticated bioelectronic remedies
کلیدواژه electroconductive polymers ,tissue engineering ,regenerative medicine ,biomedical applications
آدرس university of california – los angeles, david geffen school of medicine, department of radiological sciences, usa, university of california – los angeles, david geffen school of medicine, department of radiological sciences, usa, university of california – los angeles, david geffen school of medicine, department of radiological sciences, usa, university of california – los angeles, david geffen school of medicine, department of radiological sciences, usa, quzhou affiliated hospital of wenzhou medical university, quzhou people’s hospital, department of respiratory and critical care medicine, nanobiomedical group, china, quzhou affiliated hospital of wenzhou medical university, quzhou people’s hospital, department of science & technology, department of urology, nano medical innovation & collaboration group (nmicg), china, quzhou affiliated hospital of wenzhou medical university, quzhou people’s hospital, department of respiratory and critical care medicine, nanobiomedical group, china, quzhou affiliated hospital of wenzhou medical university, quzhou people’s hospital, department of respiratory and critical care medicine, nanobiomedical group, china
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