RevoStep. The hands-free knee rehabilitation device.
Patent-pending. Designed for mobility. Built for real life.
Recovery without giving up your hands.
RevoStep is a wearable hands-free knee rehabilitation device designed to replace traditional crutches. It allows users to bear weight through the lower leg while keeping both hands completely free — enabling safe, natural mobility throughout daily life during knee recovery.

We built it. Then we put it to the test.
Before the redesign, we built and field-tested our first working prototype — bearing weight, walking hands-free, and clearing a full staircase. Here's the device in action.
Lighter. Stronger. Built to sit.
Our latest RevoStep is a ground-up rethink — a bigger seat, the spring box removed for a steadier stride, a calf rest for knee support, and a body that detaches so you can sit. The whole device now weighs under 8 pounds — down from 25 pounds on our first prototype.

Increased seat area
A larger seat pad spreads the load for genuinely comfortable weight-bearing.
Spring box removed
Taking out the spring box steadies your gait and improves walking stability.
Removable body
The body detaches in seconds — to sit down, or to pack the device away.
Calf rest
A dedicated calf rest improves knee support and the weight-bearing load path.
Engineered around the body. Not against it.
Wear
Straps securely to the lower leg and thigh. Adjustable for any build.
Load
Weight transfers through the device, bypassing the injury site entirely.
Move
Walk naturally. Both hands completely free.
Recover
Maintain your daily life. Heal faster without the setbacks.
Built for the life you're not putting on hold.
Hands-Free Mobility
Move through daily life without surrendering your hands to crutches.
Patent-Pending Design
Filed in Canada, United States, European Union, and Japan.
Real-World Ready
Designed for school, work, and daily movement — not just clinic settings.
Non-Invasive
Wearable, adjustable, removable. No surgery. No hardware.
From concept to clinic-ready.
First Prototype
Initial biomechanical testing. Spring and damping analysis. Structural baseline established.
Refined Prototype
Improved load transfer. Posterior thigh pad integration. Enhanced adjustability and user comfort.