'innovative materials science'

ABOVE KNEE PROSTHESIS (ARTIFICAIL LIMB ABOVE THE KNEE) An above-knee prosthesis, also known as a transfemoral prosthesis, is an artificial limb designed to replace a missing leg above the knee joint. This sophisticated piece of technology plays a pivotal role in restoring mobility and functionality for individuals who have undergone knee amputations. Components and Structure: Socket: The custom-made socket is a crucial component that interfaces with the residual limb. It provides a secure and comfortable fit, allowing for weight distribution and control. Evolution Healthcare Pvt. Ltd. produces unique designs that give more comfort to the patient. There are so many socket designs, like MAS sockets, Ischial containment sockets, narrow AP ML sockets, and quad-socket designs. We follow the most advanced socket design called MAS socket design. Liner: The liner is a soft, cushioning material that goes between the residual limb and the socket. It enhances comfort, reduces friction, and aids in shock absorption. There two type liner according to material one is silicon prosthetic liner and thermos polyurethane prosthetic liner. According to suspension system of the prosthesis there 3 type liner cushion liner, Locking liner and suction liner. EVOLUTION HEALTHCARE PRIVATE LIMITED provide more advance prosthetic liner which are more durable and give more comfort to the patient. Pylon: A lightweight, durable rod or tube connects the socket to the foot. It provides structural support and flexibility. Knee Joint: The knee joint is a pivotal element in above-knee prosthetics. Different types of knee joints are available, including mechanical, pneumatic, hydraulic, and microprocessor-controlled options. Each type offers specific advantages tailored to the user's needs. Mechanical Knee Joint: Relies on mechanical components for movement. This type is often simpler in design but still effective for many users. Pneumatic Knee Joint: Operates with the use of air pressure, offering a responsive and efficient mechanism for walking. It gives a smooth gait and reduces energy expenditure. It helps the patient change 3/ 4 speed. The most important thing is it requires no maintenance. Hydraulic Knee Joint: Utilizes hydraulic fluid to control the movement, providing a smooth and natural gait. It contributes to stability and adaptability on various terrains. By this joint patient can change any number of speed. And this joint very helpful to descend stair like normal person. Microprocessor Knee Joint: Incorporates advanced technology, using sensors and a microprocessor to analyse walking patterns and adjust the prosthesis in real-time. This innovation enhances adaptability to different walking speeds and terrains. Foot: The prosthetic foot replicates the natural movement and function of a biological foot. Different designs cater to specific activities and preferences. Advancements in Above-Knee Prosthetics: Recent advancements have significantly improved above-knee prosthetics, focusing on increased comfort, natural movement, and overall user satisfaction. These advancements include lightweight materials, improved socket designs, and enhanced control mechanisms in electronic knee joints. Knee Amputation Rehabilitation: Rehabilitation following knee amputation is a critical phase in adapting to an above-knee prosthesis. It involves a comprehensive approach, including physical therapy, gait training, and psychological support, to ensure a successful transition to the use of the prosthetic limb. In conclusion, above-knee prosthetics play a vital role in restoring mobility and enhancing the quality of life for individuals who have undergone knee amputation. With ongoing advancements in technology and rehabilitation strategies, these prosthetic devices continue to evolve, providing users with more comfort, functionality, and a greater sense of independence. Evolution Healthcare Pvt Ltd provide innovative technology for above knee prosthesis far better quality then Jaipur foot technology. We provide Hi-tech prosthesis with international German technology and USA technology using light weight material like carbon fiber. The light weight carbon fiber foot and carbon fiber socket make the prosthesis lightest among the other prosthetic orthotic service provider or prosthetic manufacturer. Our prosthetic orthotic centre situated in Maharashtra at Pune and Mumbai, in West Bengal at Kolkata, In Gujarat at Surat, In Goa and also we provide the service in PAN INDIA by our qualified prosthetist and orthoptist as well as trained technicians. To learn more, contact us or visit our nearest centre to your city.

Partial Foot Prosthesis – Types, Design & Benefits A partial foot prosthesis is a custom artificial limb designed to restore mobility, balance, and comfort after a partial foot amputation. Depending on the amputation level, prosthetic options include toe fillers, transmetatarsal prosthesis, Lisfranc prosthesis, Chopart prosthesis, Syme prosthesis, and ankle disarticulation prosthesis. Made with advanced materials like silicone, carbon fiber, EVA, and pelite, these prostheses provide stability, natural gait, and patient comfort. Each partial foot prosthesis is tailored with a custom socket, foot component, and suspension system to ensure proper fit, shock absorption, and energy return. With the guidance of a certified prosthetist, patients receive personalized solutions that support walking, standing, and daily activities. Regular rehabilitation and follow-up care ensure long-term comfort, durability, and functionality.

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.

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.

Prosthetic Hip Joint: You expect comfort, dynamics, and safety from a prosthetic hip joint? Then you will find the benefits of our innovative hip joint system.

How we make • We custom -make each finger prosthesis and hand prosthesis in our own laboratory ensuring high quality and individual design. The process requires 4 to 5 appointments which involve these steps: • We make molds of the hands using gentle materials. • We modify the patient model and fabricate a diagnostic test socket to evaluate fit. • We carefully sculpt the shape of the prosthesis in wax as we establish a natural contour. • When the sculpture is complete, we fabricate a durable mold which allows us to reproduce the silicone prosthesis. • We have you try on a prototype version of the prosthesis and will make modifications until a secure fit is achieved. • We back -paint the fingernail for a natural appearance. • We meticulously paint every skin detail using your color formulae in your mold. • We check the finger or hand prosthesis for precise fit, and delicately paint color details, such as freckling, onto the surface. • We demonstrate wear and care instructions so that you can use your prosthetic finger or hand with confidence. Silicon Finger manufacturer in Pune, Surat, Kolkata, India.

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.

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.