سال انتشار:
2021
عنوان انگلیسی مقاله:
Printable alginate/gelatin hydrogel reinforced with carbon nanofibers as electrically conductive scaffolds for tissue engineering
ترجمه فارسی عنوان مقاله:
هیدروژل آلژینات/ژلاتین قابل چاپ تقویت شده با نانوالیاف کربن به عنوان داربست های رسانای الکتریکی برای مهندسی بافت
منبع:
ScienceDirect- Elsevier- Materials Science & Engineering C, 122 (2021) 111927: doi:10:1016/j:msec:2021:111927
نویسنده:
Aleksandra Serafin
چکیده انگلیسی:
Shortages of organs and damaged tissues for transplantation have prompted improvements in biomaterials
within the field of tissue engineering (TE). The rise of hybrid hydrogels as electro-conductive biomaterials offers
promise in numerous challenging biomedical applications. In this work, hybrid printable biomaterials comprised
of alginate and gelatin hydrogel systems filled with carbon nanofibers (CNFs) were developed to create electroconductive and printable 3-D scaffolds. Importantly, the preparation method allows the formation of
hydrogels with homogenously dispersed CNFs. These hybrid composite hydrogels were evaluated in terms of
mechanical, chemical and cellular response. They display excellent mechanical performance, which is
augmented by the CNFs, with Young’s moduli and conductivity reaching 534.7 ± 2.7 kPa and 4.1 × 10− 4 ± 2 ×
10− 5 S/cm respectively. CNF incorporation enhances shear-thinning behaviour, allowing ease of 3-D printing. Invitro studies indicate improved cellular proliferation compared to controls. These conductive hydrogels have the
potential to be used in a myriad of TE strategies, particularly for those focused on the incorporation of electroconductive components for applications such as cardiac or neuronal TE strategies.
Keywords: Electroactive | Hydrogels | Tissue engineering
قیمت: رایگان
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