With our software you can design different types of braces using various production methods and materials for your orthotic practice. Work with carbon fiber, polypropylene, thermoplastics, and advanced composite materials for both milling and 3D printing with FDM, SLS, and MJF technologies.
Create quick and easy from scan/cast to corrected model.
Create rigid ankle-foot orthoses for maximum support and stability.
Design articulated AFOs with precise joint mechanisms for controlled motion.
Draw the brace boundary with a single trim line, then drag it from any point to reshape the outline. Every stroke is recorded in the history, so you can refine or revert the trim at any time.
Add an anterior shin reinforcement and extend the forefoot, each switched on with a single checkbox. Set the shin box height and the toe box thickness and extra length, and the AFO reshapes as soon as you enable it.
Straighten the leg in the frontal and sagittal planes. Set the rear-view (varus/valgus) and side-view angles per leg, up to 15 degrees each, and the AFO recalculates as you adjust.
Add a heel rise and toe rise per foot to build a full rocker profile, and set the medial arch correction, heel width and brace height in the same step for a precise fit.
Perforate the shell with a hex hole pattern for ventilation and weight, add individual drawn holes, and raise strengthen ribs exactly where the brace needs extra stiffness.
Do you want to
know more about our brace software?
We place huge value on strong relationships and have seen the benefit they bring to our business. Customer feedback is vital in helping us to get it right.
Our mission has always been to deliver the highest-quality orthotic solutions at the best possible value, and LutraCAD enables us to do exactly that.