Medical Device Innovation: Translating Ideas into Reality
LEARNING SESSION PROJECT STORY EVENT SPOTLIGHT
Detailed Design Tissue Stiffness XrayTo3D wins awards
God (or devil) is in details. Work out the mechanism, enclosure, power source, user interface and other key elements of design.

1. Create a 3D CAD model of core mechanism of the device.

2. Decide the specs of any electronics or software components.

3. Visualize how different parts of the device will work together.

4. Select the materials or specifications of different parts.

5. Get an early feedback from clinicians about the working mechanism.

Tissue Stiffness Measuring Device helps in diagnosing diabetic foot ulcer patients. A plastic probe pushes and indents the foot skin, while recording and characterizing the tissue. Development team includes Amit Maurya and Rupesh Ghyar, BETiC, IIT Bombay; and Dr. Rajani Mullerpatan, MGM Hospital.
Current status: The device includes mechanical, electronic and software components, all of which have been developed and assembled. It has been tested by Dr. Rajani's team on both healthy and diabetic patients and the data is being analyzed.

Patent filed: A.Maurya, R. Ghyar, R. Mullerpatan, B. Ravi, "Tissue Stiffness detection device for Diabetic foot".

XrayTo3D technology developed by Vikas Karade, which reconstructs 3D models of bone from their 2D X-ray images, was recognized by 'Gandhian Young Technological Innovation Award' in 2014, and is among the top 10 innovations in India for President's Scholar In-Residence Program 2015.
This innovation has been in the media.
Time of India
ETHealthWorld
... and many more