AFO WITH PP JOINT  It give only planter flexion movement  Dorsiflexion is ZERO movement  It prescribe for - Foot drop - Hemiplegic paraplegic -Medio lateral Instability - Where foot slab occur.

Genu varum (bowlegs) and genu valgum (knock-knees) are common knee deformities in children that often resolve naturally as they grow. Genu Varum (Bowlegs): In this condition, the knees are apart while the feet and ankles are together, creating an outward curve. It’s typical in infants and toddlers (1-3 years old) and usually improves by age 3 or 4. If severe or persistent, orthotics or braces may be used to support proper alignment and guide bone growth. Genu Valgum (Knock-Knees): Here, the knees touch but the feet are apart. It is common in children aged 3-5 and typically corrects itself over time. If it persists, orthotics or braces may be used to improve alignment. Orthotics and Braces: Orthotics are shoe inserts that correct foot misalignment, potentially improving knee positioning. Braces or splints may be used in severe cases to guide proper bone growth. Braces: In more severe cases of genu varum or genu valgum, braces or splints might be used to help guide the bones to grow in the correct position. These devices are typically used when there's a concern about the condition not self-correcting over time. Braces may be worn during activities to promote proper alignment during movement.

A pneumatic knee joint is a type of artificial knee joint that uses compressed air to assist with movement and support. it use in above knee prosthesis . feature :- Dynamic Movement: Pneumatic systems allow for smooth and adaptive movements, mimicking natural knee motion. A typical pneumatic cylinder consists of a cylinder barrel, a piston, seals, and end caps. It may also include ports for air input and output. Compressed air is introduced into the cylinder through an inlet port. This air is typically generated by an air compressor. As the compressed air enters the cylinder, it pushes against the piston. This pressure causes the piston to move in one direction (extend or retract) depending on the configuration of the cylinder. When the piston reaches the end of its stroke, the air can be vented out through an exhaust port, allowing the piston to return to its original position. This can happen either automatically or through a control system. The motion can be controlled using valves that regulate the flow of air into and out of the cylinder, allowing for precise control of the piston’s movement. Lightweight Design: Pneumatic components can be lighter than traditional mechanical parts, improving comfort for the user. Shock Absorption: The system can absorb impact, reducing stress on other joints and enhancing overall mobility.

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

A prosthetic knee joint is an artificial knee replacement that is used to replace a damaged or diseased knee joint. It is designed to mimic the natural movement and function of a real knee joint, allowing individuals to walk and perform other activities with greater ease and comfort. Prosthetic knee joints come in various types, including total knee replacement (TKR) and partial knee replacement (PKR). In a TKR, the entire knee joint is replaced with an artificial implant, while in a PKR, only the damaged or diseased portion of the knee is replaced. The materials used in prosthetic knee joints are typically made of metal, plastic, or ceramic components, and are designed to be durable and long-lasting. The success of the surgery and the longevity of the implant depends on several factors, such as the patient's age, weight, and overall health, as well as the skill of the surgeon performing the procedure. Physical therapy and rehabilitation are often necessary after a prosthetic knee joint surgery to help the patient regain strength and mobility in the affected leg.

Charcot foot, which is a condition that affects the bones in the foot and ankle and often leads to joint deformities and instability, specialized insoles can be crucial in providing support and preventing further damage. Here are a few types of insoles that might be used: Custom Orthotics: These are specially designed to match the unique contours of your feet. They help distribute pressure evenly, stabilize the foot, and prevent further deformities. A podiatrist or orthotist can create these based on a detailed assessment of your foot structure and needs. Offloading Insoles: These are designed to reduce pressure on specific areas of the foot. For Charcot foot, offloading insoles can help redistribute pressure away from the affected areas to help prevent ulcers and further complications. Rocker Sole Insoles: Rocker soles have a rounded heel-to-toe transition which can help reduce stress on the foot while walking. This can be particularly helpful for individuals with Charcot foot to improve gait and reduce discomfort. Cushioned Insoles: Providing additional cushioning can help absorb shock and reduce the impact on the foot. This can be beneficial if you experience pain or discomfort due to Charcot foot. Rigid Insoles: Sometimes, a more rigid insole is needed to offer strong support and prevent excessive movement of the foot, which can be helpful in managing the condition and preventing further deformity.

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.

TURBOMED AFO  Foot drop is a condition that causes postural and movement difficulties. To correct this problem and get back to life as usual, count on foot drop orthotics braces that last. Simply contact us, and you'll have the right ankle foot orthotics for your needs.  By choosing a custom-made AFO brace, you will be good as new in terms of your normal abilities in a short time. You will be able to walk as well as run, and with less effort. Fill out a request and get all the details about your next foot drop brace for walking and running.

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.