Ankle Brace
ASO laced orthosis
For mild to moderate sprains. Medial or lateral instability immobilization following a ankle or foot injury. The step after the plaster, boot or brace.
The ASO laced brace with metal rods for maximum stability. Prevents sprains and strains. Relieves pain symptoms. Improves joint function. When worn with a shoe, the medial and lateral straps help prevent eversion and inversion. They do not interfere with bending or extension.
The walking boot
The walking boot is an orthosis that holds the foot at 90 degrees. It allows the patient to walk normally while completely immobilizing the foot joints.
Foot leg brace made of molded plastic
- Precast orthosis made of molded plastic or made from a mold of the patient’s foot.
- Intended for patients with a falling foot or who need to wear an ankle brace for stability.
Foot leg brace to relieve pressure
- To prevent pressure sores in the heel or malleolus.
- To prevent a plantar flexion contracture.
- To prevent the leg from rotating internally or externally.
- Prefabricated with padding. Ensures that the patient’s heel does not touch the bed. The posterior pendulum allows the foot leg brace to be placed in a neutral position to prevent rotation of the hip.
Dynamic leg brace
- Carbon fiber dynamic foot leg brace: Provides a natural, symmetrical and fluid gait with a natural heel attack and smooth transfer from the heel to the forefoot.
- Supports heel attack and limits plantar flexion and supination.
- Very dynamic performance due to its composite construction.
- The ankle can move naturally during the support phase. Easy to use and provides great comfort for the wearer.
Walking orthosis for diabetic
Foot leg brace, plastic molded with plastazote on the plantar surface. The orthosis immobilizes the ankle-foot complex while ensuring full contact of the custom-made plastazote plantar surface. Full contact allows for weight distribution, which stimulates blood circulation and healing of the ulcer while reducing pressure on it.
Bioness
In the shoe, the sensor communicates with the leg that is receiving functional electrical stimulation (FES) Using wireless technology to transmit electrical impulses to the popliteal sciatic nerve of the foot and adapt to variations in walking speed and terrain.