Skip to Content

Velocigraft

2025
Team Members:
  • Ojas Chahal
  • Ashley Cluff
  • Dalhart Dobbs
  • Aarushi Pant
  • Thoya Raman
  • Paree Sharma
  • Aditya Shrinivasan
  • Christine Wang
  • Joanne Wang
Advisors:
  • Dr. Nicholas Durr
Sponsors:
  • Mark Fisher, MD
  • Cameron Gibson, MD
  • Pedro Santos, MD
  • Arushi Biswas
  • Pallavi Ekbote

Abstract:

Over 90% of burn fatalities occur in resource-challenged or austere environments (RAEs). Comprising low- and middle-income countries, military and conflict zones, mass casualty incidents, and rural areas, these environments are characterized by a lack of access to the technologies needed to perform autologous skin grafting, the gold standard for treating deep, extensive burns. One of the most important technologies is the machine mesher, which creates small incisions in the harvested skin graft, enabling expansion and coverage of a larger wound area. These devices can cost up to $15,000 per unit with some models requiring additional consumable components, rendering them inaccessible in RAEs. To address this gap, we have developed a low-cost incision template that enables rapid, standardized, and accurate skin meshing. Our device’s small form factor, improved speed, and ability to achieve higher expansion ratios holds significant potential to enhance burn care outcomes across a wide range of environments.

Read the Johns Hopkins University privacy statement here.

Accept