Shantanu Pradhan
Shantanu Pradhan
Assistant Professor, Department of Biotechnology, IIT Madras
Verified email at - Homepage
Cited by
Cited by
A three-dimensional spheroidal cancer model based on PEG-fibrinogen hydrogel microspheres
S Pradhan, JM Clary, D Seliktar, EA Lipke
Biomaterials 115, 141-154, 2017
PEG‐fibrinogen hydrogels for three‐dimensional breast cancer cell culture
S Pradhan, I Hassani, WJ Seeto, EA Lipke
Journal of Biomedical Materials Research Part A 105 (1), 236-252, 2017
Polymeric Biomaterials for In Vitro Cancer Tissue Engineering and Drug Testing Applications
S Pradhan, I Hassani, JM Clary, EA Lipke
Tissue Engineering Part B: Reviews 22 (6), 470-484, 2016
A Microvascularized Tumor-mimetic Platform for Assessing Anti-cancer Drug Efficacy
S Pradhan, AM Smith, CJ Garson, I Hassani, WJ Seeto, K Pant, RD Arnold, ...
Scientific Reports 8, 3171, 2018
Fundamentals of laser-based hydrogel degradation and applications in cell and tissue engineering
S Pradhan, KA Keller, JL Sperduto, JH Slater
Advanced Healthcare Materials 6 (24), 2017
Engineered In Vitro Models of Tumor Dormancy and Reactivation
S Pradhan, JL Sperduto, CJ Farino, JH Slater
Journal of Biological Engineering 12 (37), 2018
Tunable hydrogels for controlling phenotypic cancer cell states to model breast cancer dormancy and reactivation
S Pradhan, JH Slater
Biomaterials 215, 119177, 2019
Rapid production of cell‐laden microspheres using a flexible microfluidic encapsulation platform
WJ Seeto, Y Tian, S Pradhan, P Kerscher, EA Lipke
Small 15 (47), 1902058, 2019
Biofabrication strategies and engineered in vitro systems for vascular mechanobiology
S Pradhan, OA Banda, CJ Farino, JL Sperduto, KA Keller, R Taitano, ...
Advanced healthcare materials 9 (8), 1901255, 2020
Dual-phase, surface tension-based fabrication method for generation of tumor millibeads
S Pradhan, CS Chaudhury, EA Lipke
Langmuir 30 (13), 3817-3825, 2014
The Influence of Matrix-Induced Dormancy on Metastatic Breast Cancer Chemoresistance
CJ Farino, S Pradhan, JH Slater
ACS applied bio materials 3 (9), 5832-5844, 2020
Fabrication, characterization, and implementation of engineered hydrogels for controlling breast cancer cell phenotype and dormancy
S Pradhan, JH Slater
MethodsX, 2019
Datasets describing hydrogel properties and cellular metrics for modeling of tumor dormancy
S Pradhan, JH Slater
Data in Brief 25, 104128, 2019
Pulsed laser assisted high-throughput intracellular delivery in hanging drop based three dimensional cancer spheroids
P Gupta, S Kar, A Kumar, FG Tseng, S Pradhan, PS Mahapatra, TS Santra
Analyst 146 (15), 4756-4766, 2021
The Influence of Ligand Density and Degradability on Hydrogel Induced Breast Cancer Dormancy and Reactivation
CJ Farino Reyes, S Pradhan, JH Slater
Advanced Healthcare Materials 10 (11), 2002227, 2021
Microfluidic cancer-on-a-chip platform for assessing anti-cancer drug efficacies
S Pradhan, AM Smith, CJ Garson, I Hassani, K Pant, RD Arnold, ...
Cancer Research 76 (14_Supplement), 620-620, 2016
Inside Back Cover - Photocrosslinked Microspheres: Rapid Production of Cell‐Laden Microspheres Using a Flexible Microfluidic Encapsulation Platform
WJ Seeto, Y Tian, S Pradhan, P Kerscher, EA Lipke
Small 15 (47), 1970254, 2019
Sessile drop evaporation approach to detect starch adulteration in milk
PS Ishwarya, VR Dugyala, S Pradhan, MG Basavaraj
Food Control 143, 109272, 2023
Droplet Microfluidics-Based Fabrication of Monodisperse Poly (ethylene glycol)-Fibrinogen Breast Cancer Microspheres for Automated Drug Screening Applications
WJ Seeto, Y Tian, S Pradhan, D Minond, EA Lipke
ACS Biomaterials Science & Engineering, 2022
Production of cancer tissue-engineered microspheres for high-throughput screening
EA Lipke, WJ Seeto, Y Tian, M Hashemi, I Hassani, B Anbiah, NL Habbit, ...
Cancer Research 82 (12_Supplement), 175-175, 2022
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