MedTech

WRCB leverages the strong engineering ecosystem of IIT Bombay to develop diverse MedTech solutions ranging from gait monitoring to small animal imaging. Here is a list of MedTech projects funded by WRCB.
9th Call

Design and development of highly deformable and elastic 3D scaffolds for cell growth and proliferation under high compressive loads

Developed By

Shobhna Kapoor and Kamendra Sharma

Department

Chemistry

9th Call

Ultraflexible nanoelectronic probes for single unit neuronal recording

Developed By

Srinivasan Ramakrishnan

Department

Chemistry

9th Call

Development of an active artificial knee joint

Developed By

Darshan Shah

Department

Mechanical Engineering

9th Call

Urinary incontinence mesh for women

Developed By

Jayesh Bellare

Department

Chemical Engineering

8th Call

Developing a cerebral blood flow imaging system for small animal stroke models

Developed By

Hari Varma

Department

Biosciences and Bioengineering

8th Call

Prototype for manufacturing encapsulated droplets for topical delivery of API

Developed By

Jyoti Seth

Department

Chemical Engineering

7th Call

Construction and validation of germicidal UV-based sterilization cabinets for inactivating coronavirus and other pathogens inside public transport system and hospital rooms

Developed By

Ambarish Kunwar

Department

Biosciences and Bioengineering

7th Call

Tracking and predicting spread of covid-19 pandemic in India and identifying clusters using GIS and data analysis

Developed By

Gopal Patil

Department

Civil Engineering

7th Call

ThermoMudra- A low-cost contactless fast body temperature imaging device for high traffic area deployment

Developed By

Rajesh Zele

Department

Electrical Engineering

7th Call

Thermal camera for body temperature screening

Developed By

Subhananda Chakrabarti

Department

Electrical Engineering

7th Call

Making gas-exhaust safer with Covid filters

Developed By

Jayesh Bellare

Department

Chemical Engineering

5th Call

Design and development of x-ray high frequency power supply unit

Developed By

Mukul Chandorkar, Himanshu Bahirat

Department

Electrical Engineering

5th Call

Low-cost, wearable foot insole-based balance and gait monitoring and rehabilitation system

Developed By

Neeta Kanekar

Department

Biosciences and Bioengineering

5th Call

Design and development of a low-cost handheld Vis-NIR Fourier transform spectrometer for biomedical applications

Developed By

Parinda Vasa

Department

Physics

4th Call

Brain-machine interface to control a real or simulated wheelchair (T2DM)

Developed By

Azizuddin Khan

Department

Humanities and Social Sciences

4th Call

Wearable biopotential electrodes for continuous recording of electroencephalography (EEG) signals

Developed By

Dipti Gupta

Department

Metallurgical Engineering and Material Science

4th Call

Multifunctional motion-tolerant cuff-less blood pressure and SpO2 monitoring

Developed By

Maryam Shojaei Baghini

Department

Electrical Engineering

4th Call

Development of slit-lamp scope as a stereophotographic tool for glaucoma evaluation and documentation.

Developed By

Sumit Saxena

Department

Metallurgical Engineering and Material Science

3rd Call

Hollow fiber membrane based hemodialyzer for kidney dialysis

Developed By

Jayesh R. Bellare

Department

Chemical Engineering

2nd Call

Modelling malaria and dengue prevalence in Mumbai

Developed By

Siuli Mukhopadhyay

Department

Mathematics

1st Call

Hollow fiber membrane based hemodialyzer

Developed By

Jayesh R. Bellare

Department

Chemical Engineering

1st Call

Development of affordable high quality all-ceramic dental crowns

Developed By

Parag Bhargava

Department

Metallurgical Engineering and Materials Science

1st Call

Blood pressure measurement device based on flexible organic thin film transistors

Developed By

Dipti Gupta

Department

Metallurgical Engineering and Materials Science

1st Call

Short range wireless medical data communication system in MedRadio band

Developed By

Maryam Shojaei Baghini

Department

Electrical Engineering

eRapid: Multiplexed Electrochemical Sensors for Fast, Accurate, Portable Diagnostics

Preserved defective offending he daughters on or. Rejoiced prospect yet material servants out answered men admitted. Sportsmen certainty prevailed suspected am as. Add stairs admire all answer the nearer yet length. Advantages prosperous remarkably my inhabiting so reasonably be if.
READ MORE
medtech

Crisscross Nanoseed Detection: Nanotechnology-Powered Infectious Disease Diagnostics

This nanotech-based diagnostic platform uses a unique nucleation mechanism that assembles a DNA "nanoseed" in the presence of a pathogen-derived biomarker that then is amplified within 15 minutes to create a signal for easy detection. It is highly robust, and cost-effective, and can be adapted to detect a variety of biomarkers.
READ MORE

wFDCF Face Masks: A Wearable COVID-19 Diagnostic

The Problem The COVID-19 pandemic has made it starkly clear that the world lacks rapid, accurate diagnostic tests for pathogens. When patients arrive in a medical facility for treatment, the triage process is hindered by diagnostic tests that are inaccurate or take a long time to produce results
READ MORE

Subscribe to our e-mail updates

Subscription Form (#3)
Back to Top
linkedin facebook pinterest youtube rss twitter instagram facebook-blank rss-blank linkedin-blank pinterest youtube twitter instagram