Samit Kumar Nandi
West Bengal University of Animal and Fishery Sciences
5 Papers
24 Citations
Samit Kumar Nandi is an academic researcher from West Bengal University of Animal and Fishery Sciences. The author has contributed to research in topics: Fibroin & Bombyx mori. The author has an hindex of 4, co-authored 5 publications.
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Papers
Functional hepatocyte clusters on bioactive blend silk matrices towards generating bioartificial liver constructs.
TL;DR: The findings substantiate that the integral property of blend (BA) scaffold offers a befitting environment by influencing spheroidal growth of hepatocytes with enhanced biological activity and provides a new 3D bio-matrix niche for growing functional liver cells that would have future prospects in BAL as well as regenerative medicine.
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Silver nanoparticle deposited implants to treat osteomyelitis
TL;DR: Silver-coated pins, especially high dose, offered a promising result to treat infection in animal osteomyelitis model without any toxicity to major organs.
36
Development and Applications of Varieties of Bioactive Glass Compositions in Dental Surgery, Third Generation Tissue Engineering, Orthopaedic Surgery and as Drug Delivery System
Samit Kumar Nandi,Biswanath Kundu,Someswar Datta +2 more
- 16 Nov 2011
TL;DR: Its high modulus and brittle nature makes its applications limited, but it has been used in combination with poly-methylmethacrylate to form bioactive bone cement and with metal implants as a coating to form a calcium-deficient calcium phosphate layer.
In Vivo Characterization of Biomaterials
Samit Kumar Nandi,Subhasish Biswas +1 more
- 01 Jan 2013
TL;DR: Biomaterials developed for bone, cartilage, ligament, tendon, skeletal muscle, dental, and other musculoskeletal applications almost always necessitate mechanical properties characterization to guarantee that they are robust enough for their in vivo functionality.
3
Stacked silk-cell monolayers as a biomimetic three dimensional construct for cardiac tissue reconstruction.
TL;DR: A 3-D construct using silk films to promote cardiac tissue regeneration and prospects of exploring silk-cardiomyocyte monolayers for cardiac tissue engineering applications are attests the suitability of non-mulberry A. assama silk fibroin as a potential biomaterial.