Debanjan Sarkar
TitleCited byYear
Engineered cell homing
D Sarkar, JA Spencer, JA Phillips, W Zhao, S Schafer, DP Spelke, ...
Blood 118 (25), e184-e191, 2011
Cell-surface sensors for real-time probing of cellular environments
W Zhao, S Schafer, J Choi, YJ Yamanaka, ML Lombardi, S Bose, ...
Nature nanotechnology 6 (8), 524, 2011
Engineered mesenchymal stem cells with self-assembled vesicles for systemic cell targeting
D Sarkar, PK Vemula, W Zhao, A Gupta, R Karnik, JM Karp
Biomaterials 31 (19), 5266-5274, 2010
Synthesis and characterization of L‐tyrosine based polyurethanes for biomaterial applications
D Sarkar, JC Yang, AS Gupta, ST Lopina
Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2009
BMP2 genetically engineered MSCs and EPCs promote vascularized bone regeneration in rat critical-sized calvarial bone defects
X He, R Dziak, X Yuan, K Mao, R Genco, M Swihart, D Sarkar, C Li, ...
PLoS One 8 (4), e60473, 2013
Chemical engineering of mesenchymal stem cells to induce a cell rolling response
D Sarkar, PK Vemula, GSL Teo, D Spelke, R Karnik, Y Wee, JM Karp
Bioconjugate chemistry 19 (11), 2105-2109, 2008
Engineering cells with intracellular agent–loaded microparticles to control cell phenotype
JA Ankrum, OR Miranda, KS Ng, D Sarkar, C Xu, JM Karp
Nature protocols 9 (2), 233, 2014
A highly tunable biocompatible and multifunctional biodegradable elastomer
MJN Pereira, B Ouyang, CA Sundback, N Lang, I Friehs, S Mureli, ...
Advanced materials 25 (8), 1209-1215, 2013
Structure‐property relationship of L‐tyrosine‐based polyurethanes for biomaterial applications
D Sarkar, JC Yang, ST Lopina
Journal of Applied Polymer Science 108 (4), 2345-2355, 2008
Cellular and extracellular programming of cell fate through engineered intracrine-, paracrine-, and endocrine-like mechanisms
D Sarkar, JA Ankrum, GSL Teo, CV Carman, JM Karp
Biomaterials 32 (11), 3053-3061, 2011
Oxidative and enzymatic degradations of l-tyrosine based polyurethanes
D Sarkar, ST Lopina
Polymer Degradation and Stability 92 (11), 1994-2004, 2007
An effective method for preparing polymer nanocapsules with hydrophobic acrylic shell and hydrophilic interior by inverse emulsion radical polymerization
D Sarkar, J El-Khoury, ST Lopina, J Hu
Macromolecules 38, 8603-8605, 2005
Cell surface engineering of mesenchymal stem cells
D Sarkar, W Zhao, A Gupta, WL Loh, R Karnik, JM Karp
Methods Mol Biol 698, 505-523, 2011
Mimicking the inflammatory cell adhesion cascade by nucleic acid aptamer programmed cell-cell interactions
W Zhao, W Loh, IA Droujinine, W Teo, N Kumar, S Schafer, CH Cui, ...
The FASEB Journal 25 (9), 3045-3056, 2011
WO Patent WO/2009/002,456, 2008
Cell–material interactions on biphasic polyurethane matrix
P Dicesare, WM Fox, MJ Hill, GR Krishnan, S Yang, D Sarkar
Journal of Biomedical Materials Research Part A 101 (8), 2151-2163, 2013
Hydrophilic polyurethane matrix promotes chondrogenesis of mesenchymal stem cells
SM Nalluri, GR Krishnan, C Cheah, A Arzumand, Y Yuan, CA Richardson, ...
Materials Science and Engineering: C 54, 182-195, 2015
Overview of tissue engineering concepts and applications
D Sarkar, W Zhao, S Schaefer, JA Ankrum, GSL Teo, MN Pereira, ...
Biomaterials Science, 1122-1137, 2013
Grafting poly (t‐butyl acrylate) to poly (allylamine) by inverse microemulsion radical polymerization: From comb‐polymer to amphiphilic shell crosslinked polymer nanocapsule
D Sarkar, JM El Khoury, ST Lopina, J Hu
Journal of applied polymer science 104 (3), 1905-1911, 2007
Interfacial energetics approach for analysis of endothelial cell and segmental polyurethane interactions
MJ Hill, C Cheah, D Sarkar
Colloids and Surfaces B: Biointerfaces 144, 46-56, 2016
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Articles 1–20