Shaurya Prakash, PhD
Academic Title: Professor in the College of Engineering
Research Program: Cancer Biology
About Me
More info forAs a member of the Cancer Biology Program at the OSUCCC – James, I have two main research interests, both of which are driven by engineering principles for developing technological solutions for fundamental understanding, new diagnostic tools and new instrumentation for improving treatment outcomes.
The first effort focuses on measuring, quantifying and developing instrumentation to electromagnetically determine properties of liver metastases from colorectal cancer. A continuing aim of this research is to develop modalities for real-time tissue imaging for accurate surgical margin identification during surgery.
The second effort focuses on innovative microfluidic platforms to enable isolation, concentration and analysis of cells and cellular components with applications to liquid biopsy and angiogenesis.
Additionally, I am the co-holder of two patents and have co-authored numerous articles in such peer-reviewed journals as Scientific Reports, Lymphology and Micromachines.
Education & Training
More info forDoctorate - PhD
- University of Illinois
Urbana, IL
USA
Master's Degree - MS
- University of Illinois
Urbana, IL
USA
- University of Illinois
Academic Office & Contact Information
More info forAcademic Office:
Scott Laboratory
201 W 19th Ave
Columbus, Ohio 43210-1142Phone:
614-688-4045Email:
prakash.31@osu.eduPublications
More info forJuly 1, 2024Mechanical property estimation of sarcoma-relevant extracellular vesicles using transmission electron microscopy.
Singh PK, Sarchet P, Hord C, Casadei L, Pollock R, Prakash S
J Extracell Biol
March 21, 2023Continuous flow microfluidics for colloidal particle assembly on porous substrates.
Lochab V, Ewim ED, Prakash S
Soft Matter
December 9, 2022Application of Microfluidics for Bacterial Identification.
Daniel F, Kesterson D, Lei K, Hord C, Patel A, Kaffenes A, Congivaram H, Prakash S
Pharmaceuticals (Basel)
September 1, 2021Endothelial barrier function is co-regulated at vessel bifurcations by fluid forces and sphingosine-1-phosphate.
Akbari E, Spychalski GB, Menyhert MM, Rangharajan KK, Tinapple JW, Prakash S, Song JW
Biomater Biosyst
February 1, 2021Cross-flow microfiltration for isolation, selective capture and release of liposarcoma extracellular vesicles.
Casadei L, Choudhury A, Sarchet P, Mohana Sundaram P, Lopez G, Braggio D, Balakirsky G, Pollock R, Prakash S
J Extracell Vesicles
December 15, 2020Direct current electric field regulates endothelial permeability under physiologically relevant fluid forces in a microfluidic vessel bifurcation model.
Mohana Sundaram P, Rangharajan KK, Akbari E, Hadick TJ, Song JW, Prakash S
Lab Chip
October 1, 2020Multi-Layer Micro-Nanofluidic Device for Isolation and Capture of Extracellular Vesicles Derived from Liposarcoma Cell Conditioned Media.
Sundaram PM, Casadei L, Lopez G, Braggio D, Balakirsky G, Pollock R, Prakash S
J Microelectromech Syst
September 10, 2020Evaluation of electrical properties of ex vivo human hepatic tissue with metastatic colorectal cancer.
Lochab V, Jones TH, Alkandry E, West JD, Abdel-Rahman MH, Subramaniam VV, Prakash S
Physiol Meas
July 29, 2020Evaluation of electrical properties ofex vivohuman hepatic tissue with metastatic colorectal cancer.
Lochab V, Jones TH, Alkandry E, West JD, Abdel-Rahman M, Subramaniam VV, Prakash S
Physiol Meas