A
Akshay Joshi
Researcher at Indian Institute of Technology Delhi
Publications - 10
Citations - 170
Akshay Joshi is an academic researcher from Indian Institute of Technology Delhi. The author has contributed to research in topics: Medicine & Self-healing hydrogels. The author has an hindex of 4, co-authored 6 publications receiving 40 citations.
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3D bioprinted alginate-gelatin based scaffolds for soft tissue engineering
TL;DR: The developed Alginate-Gelatin based 3D scaffold maintains the required balance between biomechanics and soft tissue regeneration and improves mechanical properties by matrix secretion.
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Exploiting synergistic effect of externally loaded bFGF and endogenous growth factors for accelerated wound healing using heparin functionalized PCL/gelatin co-spun nanofibrous patches
Akshat Joshi,Zhe Xu,Yasuhiro Ikegami,Kozue Yoshida,Yusuke Sakai,Akshay Joshi,Tejinder Kaur,Yosuke Nakao,Yo-ichi Yamashita,Hideo Baba,Shinichi Aishima,Neetu Singh,Hiroyuki Ijima +12 more
TL;DR: This research utilizes the exogenous and endogenous GFs sequestering capability of heparin functionalized PCL/gelatin co-spun nanofabrics to mediate synergistically driven tissue regeneration by utilizing combined therapeutic effect of exogenous, endogenous and endogenousGFs, and thereby minimizing the sole dependency on exogenous GFs for tissue regeneration.
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Polymeric micelles coated with hybrid nanovesicles enhance the therapeutic potential of the reversible topoisomerase inhibitor camptothecin in a mouse model.
TL;DR: A hybrid system to encapsulate CPT inside the amphiphilic micelle and coat it with RBC membrane is developed, which resulted in the increased overall survival of mice treated with the nano formulation and showed strong retention inside the Ehrlich Ascites Carcinoma mice models for at least 72 h, suggesting camouflaging ability conferred by RBC membranes.
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Infection resistant polymer brush coating on the surface of biodegradable polyester
TL;DR: A balance between antibacterial activity and cytocompatibility was found at optimum brush length achieved after 18 h of SIATRP suggesting that this composition offers a stable, non-leaching, anti-infective, but cytoc Compatible coating on biodegradable polymeric implant surface for addressing several biomaterials associated infections.
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Strategies to Promote Vascularization in 3D Printed Tissue Scaffolds: Trends and Challenges.
Akshay Joshi,Saswat Choudhury,Sriram Bharath Gugulothu,Sandhya S. Visweswariah,Kaushik Chatterjee +4 more
TL;DR: The Review concludes with the current limitations and future directions that can help 3D printing emerge as an effective biofabrication technique to realize tissues with physiologically relevant vasculatures to ultimately accelerate clinical translation.