S
Suradip Das
Researcher at University of Pennsylvania
Publications - 21
Citations - 507
Suradip Das is an academic researcher from University of Pennsylvania. The author has contributed to research in topics: Sciatic nerve injury & Peripheral nerve injury. The author has an hindex of 10, co-authored 19 publications receiving 368 citations. Previous affiliations of Suradip Das include Indian Institutes of Technology & Indian Institute of Technology Guwahati.
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Journal ArticleDOI
In vivo studies of silk based gold nano-composite conduits for functional peripheral nerve regeneration
Suradip Das,Manav Sharma,Dhiren Saharia,K. K. Sarma,Monalisa Sarma,Bibhuti Bhusan Borthakur,Utpal Bora +6 more
TL;DR: Histo-morphometric and electrophysiological studies proved that the nanocomposite based conduits pre-seeded with Schwann cells performed best in terms of structural and functional regeneration of severed sciatic nerves.
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Electrospun silk-polyaniline conduits for functional nerve regeneration in rat sciatic nerve injury model
TL;DR: The excellent functional recovery achieved by animals implanted with cell seeded PASF conduits are superior to outcomes achieved previously with similar electrically conductive conduits, indicating enhanced neuro-regeneration.
Journal ArticleDOI
Innervation: the missing link for biofabricated tissues and organs
Suradip Das,Suradip Das,Wisberty J. Gordián-Vélez,Wisberty J. Gordián-Vélez,Harry C. Ledebur,Foteini Mourkioti,Panteleimon Rompolas,H. Isaac Chen,H. Isaac Chen,Mijail D. Serruya,Mijail D. Serruya,D. Kacy Cullen +11 more
TL;DR: It is asserted that innervation should be included as a necessary component for tissue and organ biofabrication, and that strategies to orchestrate host axonal integration are advantageous to ensure proper function, tolerance, assimilation, and bio-regulation with the recipient post-implant.
Journal ArticleDOI
Bio-inspired nano tools for neuroscience.
TL;DR: This review is an attempt to comprehend the progress in understanding the obstacles posed by the complex physiology of the nervous system and the innovations in design and fabrication of advanced nanomaterials drawing inspiration from natural phenomenon to provide an insight into the huge potential of nanotechnology platforms in neuroscience.
Journal ArticleDOI
Pre-innervated tissue-engineered muscle promotes a pro-regenerative microenvironment following volumetric muscle loss
Suradip Das,Suradip Das,Kevin D. Browne,Kevin D. Browne,Franco A Laimo,Franco A Laimo,Joseph C. Maggiore,Joseph C. Maggiore,Melanie C Hilman,Melanie C Hilman,Halimulati Kaisaier,Halimulati Kaisaier,Carlos A. Aguilar,Zarina S. Ali,Foteini Mourkioti,D. Kacy Cullen,D. Kacy Cullen +16 more
TL;DR: A bioengineered construct combining nerve and muscle cells on a biomimetic scaffold to improve recovery from volumetric muscle loss and report an increase in in vitro parameters of muscle fiber development and formation of neuromuscular junctions, which support in vivo observations of improved implanted cell survival and vascularization.