A double-action ankle joint ankle-foot orthosis (AFO) is a type of orthotic device designed to support and stabilize the ankle and foot. It features two separate joints, one for dorsiflexion (lifting the foot up) and one for plantarflexion (pointing the foot down). This dual-joint mechanism allows for more natural and controlled movement of the ankle, helping to address various conditions affecting gait and stability. Here are some key points about a double-action AFO: Functionality: The double-action joints provide the ability to control both upward and downward motion of the foot. This helps in managing conditions like foot drop, where the foot cannot be lifted properly, or other gait abnormalities. Customization: These AFOs are often custom-made to fit the individual's specific anatomy and needs. Adjustments can be made to fine-tune the range of motion and alignment. Materials: They are typically made from lightweight and durable materials such as thermoplastics or carbon fiber, which offer a balance of strength and flexibility. Indications: They are used for conditions like cerebral palsy, stroke, peripheral neuropathy, or other neurological or musculoskeletal disorders that affect ankle and foot function. Design: The double-action mechanism allows for controlled movement and can help in improving gait, stability, and overall mobility.

KAFO with Offset Knee Joint drop lock type  A knee-ankle-foot orthosis (KAFO) consists of a plastic AFO or an AFO with metal uprights, a mechanical knee joint, and a plastic thigh cuff or 2 metal thigh bands. KAFO’s can be used in quadriceps paralysis or weakness to maintain knee stability and control flexible genu valgum or varum.  KAFO’s are also used to limit the weight bearing of the thigh, leg, and foot with quadrilateral or ischial containment brim. A KAFO is more difficult to don and doff than an AFO, so it is not recommended for patients who have moderate-to-severe cognitive dysfunction.  The most common causes of muscle weakness include: -Poliomyelitis -Muscular Dystrophy -Multiple Sclerosis -Spinal cord injury

Carbon Fibre AFO  Carbon fiber will provide more energy return. Carbon fiber may be made stiffer and stronger. Carbon fiber AFOs can be made lower profile. There is a weight saving over plastic variants.  One of the main reasons is that they are half the weight of traditional materials. For many patients, this makes a tremendous difference in their ability to go about daily tasks.  Studies have also found that carbon fiber helps to store energy from movement, creating a spring-like action, making forward movement that much easier. This is especially helpful for those with “drop foot”. The calf muscle even gains muscle mass from improved function in some patients.

AFO with Tamarac Ankle joint  The Tamarack Flexure Joint is recognized and used worldwide in the orthotic & prosthetic industry due to its high strength tension load bearing element, which provides smooth articulation and unmatched durability. Tamarack Flexure Joints are lightweight, cost effective, and easy to install in custom and semi-custom thermoplastic and laminated orthopedic bracing applications.

AFO WITHOUT JOINT:  Ankle foot orthoses AFOs are external biomechanical devices utilized on lower limbs to stabilize the joints, improve the gait and physical functioning of the affected lower limb. AFO is used as supportive devices and aid for ambulation through different gait stages by providing foot clearance, used to limit or assist ankle and foot ROM like; dorsiflexion, plantar flexion, improve balance, decrease the risk of falling, help with weak musculature of lower legs, and to return to previous activity or facilitate patient mobility.  They are found in different types and different materials and can be modified according to the use and the development of the person if it is used for children. They made from thermoformed plastic material that enables to add modification and adjustments. AFOs are used as night splints to prevent contractures in some cases, patients with stroke, and other neurological conditions such as SCI and children with cerebral palsy.

A static ankle-foot orthosis (AFO) is an orthopedic device designed to support, align, and improve the function of the ankle and foot. Unlike dynamic AFOs, which allow for movement, static AFOs are rigid or semi-rigid and provide fixed support to maintain the position of the foot and ankle. Key Features Design and Materials: Static AFOs are typically made from materials such as plastic or carbon fiber. These materials create a sturdy framework that is custom-molded to the individual's foot and leg, ensuring a proper fit and maximum support. Purpose: The primary goals of a static AFO are to correct or prevent deformities, provide stability, and relieve pain. They are commonly used to manage conditions such as: Drop Foot: A condition where the foot cannot be lifted properly, making walking difficult. Cerebral Palsy: A disorder characterized by muscle stiffness and control issues that affect gait and foot positioning. Stroke: To assist with walking by supporting the affected leg and foot. Post-Surgical Recovery: To immobilize the ankle and foot after surgery, promoting proper healing. Components: Footplate: Covers the sole of the foot and provides essential support. Calf Strap: Secures the AFO to the leg, usually adjustable for comfort. Padding: Often lined with foam or other cushioning materials to enhance comfort and prevent skin irritation. Benefits Improved Function: Helps individuals maintain or enhance their walking ability by keeping the foot in a functional position. Injury Prevention: Reduces the risk of falls and injuries by stabilizing the foot and ankle. Deformity Management: Prevents or corrects deformities by maintaining proper alignment of the foot and ankle. Fitting and Customization For optimal effectiveness, static AFOs are custom-fitted to each individual. This usually involves taking precise measurements or molds of the foot and leg to ensure the device supports the unique anatomical structure and needs of the user. In summary, a static AFO is managing various foot and ankle conditions by providing fixed support and alignment. Its success depends on a proper fit and regular use, making it an essential component of many orthopedic and rehabilitation strategies.  Address：  House NO -27, Gita Nagar, Society, Opposite Sanghvi Tower, Adajan Rd, Adajan, Surat, Gujarat 395009  Flat no. 1, Laxmi Mahal Apartment, 2163, near Neelayam Theatre, Sadashiv Peth, Pune, Maharashtra 411030  Plot No 17, 40, Rajdanga Sarat Pk Rd, near MEGHALAYA HOUSE, next to Pearl dental clinic, Shantipally, Block-BA, P.S:, Kasba, Kolkata, West Bengal 700107  46, Mona Shopping Center,, Andheri West,, near Navrang Theater, Mumbai, Maharashtra 400053 9377466476,8128996476 evolution healthcarepvt ltd

HKAFO  The term HKAFO is an acronym that stands for hipknee-ankle-foot-orthosis and describes the part of the body that this device encompasses. This device is basically a KAFO with the addition of a hip joint and pelvic section.  The addition of the hip joint and pelvic section provides control to selected hip motions. These selected motions about the hip are front to back, side to side, and rotation. One reason the hip section is added to a KAFO is to reduce or minimize the risk of the hip moving out of proper position or dislocating.  Another common reason is to stabilize the hip and lower spine in cases where the patient is weak or paralyzed. One common application of HKAFO is RGO, or, reciprocal gait orthosis, which helps move one hip upon moving the other hip and encouraging a normal gait.

Foot Sensor Knee joint KAFO Indian Made  Stance control recently listed its products on IndiaMART to reach out to Patients and Doctors all across the world with its products.  Products:  Waltronic Stance Control Electro-Magnetic Knee ankle foot orthoses (KAFO)  Waltronic Stance Control Electronic KAFO  A foot sensor will help to lock and unlock the knee with proper timing to give natural gait.  It has battery which need regular charging 4 to 6 hour to operate the orthosis

Neurotronic KAFO  The Neurotronic knee joint system is a sophisticated electro mechanical knee control component designed specifically for people with knee extensor weakness, knee instability or loss of knee control and sets the benchmark for this class of limb control technology.  The Neurotronic is incorporated into a discreet lightweight carbon frame, locking automatically in stance phase and free moving in swing phase. In stance phase, the Neurotronic stabilises the knee in any position to enable the user to safely load the effected limb even when the knee joint is flexed or bent. During swing phase, the Neurotronic allows the knee to move freely to achieve a natural gait pattern without the compensations seen with conventional designs.  The electromechanical knee joint system is controlled either by a pressure sensor under the foot piece or by motion sensors integrated in the controller. The control mechanism incorporates an inclinometer and accelerometer motion sensors that detect the movement and position of the lower leg.  When standing with the orthosis or just before heel strike, the motion sensors lock the Neurotronic system knee joint. The motion detection is sensitive to speed and the joint will lock regardless of length and speed of steps and regardless of a hill gradient.