Why Kolabtree
Getting started is quick and easy. No upfront fees
It’s free to request a service and invite bids from experts
Discuss requirements with the expert in detail before accepting statement of work from Kolabtree
Collaborate with the expert directly to get your work done the right way
Fund project when you hire the expert, but approve the deliverables only once work is done
Want to hire this expert for a project? Request a quote for free.
Profile Details
Create Project
★★★★★
☆☆☆☆☆
USD 50 /hr
Hire Dr. Seep A.
India
USD 50 /hr

Freelance Life Sciences writer| Experience in Life science and Biotechnology Data analysis

Profile Summary
Subject Matter Expertise
Services
Writing Clinical Trial Documentation, Technical Writing
Research Fact Checking, Systematic Literature Review, Secondary Data Collection
Consulting Scientific and Technical Consulting
Data & AI Statistical Analysis
Work Experience

Singapore-MIT Alliance for Research and Technology

- Present

Education

(Biomedical Engineering)

National University of Singapore

August 2014 - January 2019

Certifications
  • Certification details not provided.
Publications
JOURNAL ARTICLE
Arora, S., Srinivasan, A., Leung, C.M., Toh, Y.-C.(2020). Bio-mimicking shear stress environments for enhancing mesenchymal stem cell differentiation . Current Stem Cell Research and Therapy. 15. (5). p. 414-427.
Arora, S., Lin, S., Cheung, C., Yim, E.K.F., Toh, Y.-C.(2020). Topography elicits distinct phenotypes and functions in human primary and stem cell derived endothelial cells . Biomaterials. 234.
Arora, S., Yim, E.K.F., Toh, Y.-C.(2019). Environmental specification of pluripotent stem cell derived endothelial cells toward arterial and venous subtypes . Frontiers in Bioengineering and Biotechnology. 7. (JUN).
Arora, S., Lam, A.J.Y., Cheung, C., Yim, E.K.F., Toh, Y.-C.(2019). Determination of critical shear stress for maturation of human pluripotent stem cell-derived endothelial cells towards an arterial subtype . Biotechnology and Bioengineering. 116. (5). p. 1164-1175.
Ong, L.J.Y., Ching, T., Chong, L.H., Arora, S., Li, H., Hashimoto, M., Dasgupta, R., Yuen, P.K., Toh, Y.-C.(2019). Self-aligning Tetris-Like (TILE) modular microfluidic platform for mimicking multi-organ interactions . Lab on a Chip. 19. (13). p. 2178-2191.