What are the parts of a prosthetic leg?

If you are considering using a prosthetic leg, or you have already been prescribed a prosthetic leg, you probably have a lot of questions about how a prosthetic leg works! Read on to learn more about the different parts that make up a prosthetic leg and how they work together. 

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Prosthesis and prosthetic leg 

The first term to become familiar with is  &#;prosthesis&#;. A prosthesis (plural: prostheses) is an artificial device that replaces a body part lost through trauma, disease or a congenital condition. The components of a prosthesis depend on the body part it replaces. If the prosthesis replaces a leg, for example, you can call it a prosthetic leg. 

Socket 

The socket connects your residual limb to your prosthetic leg and is the foundation of the prosthetic leg. A proper fit is essential to ensure that you can function comfortably and well.  

Since no two residual limbs are the same, the socket is custom-designed and manufactured to suit the shape of your residual limb and to accommodate for individual shape and skin patterns. 

Liner 

The liner serves as a protective barrier between your skin and the socket. Because the socket and suspension are fundamental to the effective functioning of a prosthetic leg, it is extremely important to select the right liner. 

There are three main ways to attach a liner to your socket: 

• Locking liner: a locking pin at the end furthest from the residual limb  
• Cushion liner: an extra layer applied over the liner and socket  
• Seal-in liner a vacuum with a seal  

Prosthetic knee 

Depending on the location of the amputation, your prosthetic leg may or may not feature a knee. 

A prosthetic knee mimics the function of a biological knee by providing safety, symmetry and smooth movement when walking. It also provides stability when standing and a range of motion that makes sitting and kneeling possible.  

The knee is one of the most complicated joints in the human body, so designing a prosthesis that functions like a biological knee can be challenging. If the design forces the user to walk in an unnatural way, they may experience back and hip pain . Or if the knee doesn&#;t suit the user&#;s physical requirements, it may cause them to fall. Prosthetic knees can be divided into mechanical or bionic (computerized) knees. 

Be sure to communicate with your prosthetist to ensure you are getting the comfort and functionality from your prosthetic knee to meet your mobility needs. 

Prosthetic foot 

A prosthetic foot imitates the function of a biological foot by providing a safe platform, handling differences in terrain and allowing the individual to walk in a natural, symmetrical way. The foot is the main prosthetic component responsible for absorbing the shock generated by impact on the ground. Prosthetic feet are available in a wide range to reflect your lifestyle and individual requirements.&#; 

Adapters 

An adapter is any prosthetic component that links the main components, such as the liner, knee and foot together. Adapters can vary from components such as a simple tube (which is called a pylon) to an expulsion valve in a vacuum system. 

Cosmesis 

A cosmesis is a lifelike covering made from a material such as silicone or PVC. Its purpose is to mimic the appearance of a biological limb, and may be complete with freckles, veins, hair or even tattoos. A cosmesis can also protect the prosthetic components from the elements. 

Some types of cosmeses are ready-made, but for a truly realistic appearance a cosmesis must be custom designed and manufactured by a prosthetist who specializes in this aspect of prosthetics.  

The use of a cosmesis is a personal choice. You will get to weigh the benefits of appearance of a cosmesis against the extra costs and potential impacts on functionality when deciding whether to wear one or not. 

Specialized Components 

Prosthetic technology has come a long way toward helping people who have had an amputation enjoy greater mobility. Some of the most advanced prosthetics, like Bionic prosthetics, have on-board microprocessor computers and artificial intelligence (AI) that automatically adjust to changes in terrain, and adapts real-time to your walking speed and style. 

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While the same prosthesis can be used for a range of activities, such as hiking, jogging, and showering, other activities, such as sprinting, long-distance running and swimming, require a specialized prosthesis. If you plan to go jogging, running or sprinting regularly, it&#;s better to use components made specifically for that, such as the Cheetah blade. 

One recent innovation from Össur is a unique crossover foot prosthesis inspired by the original Cheetah design. Although primarily designed for everyday use, the Cheetah Xplore allows the user to engage in various sports and activities without changing the prosthesis.  

By openly discussing your ambitions and lifestyle requirements with your prosthetist while staying informed about new technology, you can be sure that you are getting the benefits of the latest technology. 

We hope these descriptions are a helpful start to understanding this new part of your daily life. Remember to always ask the specialists you are working with about your new prosthetic leg and how it works. It is a great way to empower yourself as you move into your new life with a prosthetic leg.

Knowing the various components of a prosthetic leg can help you understand how your leg functions as a whole.

Prosthetic limbs are technological marvels, but their various components are not well-known by the general public. Fortunately, modern prosthetic legs are as user-friendly as they are functional.

Because the typical prosthetic leg is designed to resemble a real limb, few of us take the time to wonder about the parts of a prosthetic leg. But understanding how the individual parts work will help you understand why they function so well together. That understanding is crucial for living with a prosthetic leg, whether it is for yourself or when you are helping a loved one incorporate the new limb into his or her life.

The Limb

The largest part of the prosthesis is the leg itself, made from a model based on your residual limb and the rest of your body. The two main types of prosthetic legs are below the knee (BK) prosthesis, and above the knee (AK) prosthesis, which also include artificial knees. Subcategories include prosthesis at the levels of hemipelvectomy, hip disarticulation, and foot amputations.

The design of the actual limb will vary depending on a variety of factors, including the specific area of amputation as well as your own preferences. A typical prosthetic leg is constructed of lightweight material and covered in flesh-colored plastic that matches your own skin as exactly as possible, but a secondary sports prosthesis may look much different.

The Socket

The socket is the transitional piece of equipment connecting your prosthetic limb to your residual limb. Updated sockets, developed from plaster casts or from imaging technology of your residual limb, may be needed from time to time in order to accommodate your body&#;s changes. The kind of socket, in terms of both design and materials, that are used with the prosthetic limb depends largely on whether it is a BK or AK prosthesis.

Sockets are often part of the overall attachment mechanisms securing the prosthetic limb to the residual limb, sometimes as part of a sleeve or harness system.

Knees and Feet

There are several prosthetic knees on the market, with manual locking knees providing a good overall degree of stability. The more sophisticated microprocessor knee automatically senses degrees of walking or running speed.

Prosthetic feet will also be determined by your physical capacities, as well as your lifestyle challenges. The degree of complexity ranges from a basic solid ankle/ cushioned heel type, to dynamic response feet, which are keyed to the energy level of the walker.

Controls

Generally speaking, controls need to be more sophisticated in upper limb prosthesis in order for the arms or hands to &#;know&#; how to move. Lower limb prosthesis operate more simply, using gravity. However, if there are biological reasons why more help is needed, cables running through the artificial legs can be powered by battery or myoelectrical technology.

To understand more about how the parts of a prosthetic leg work together, speak with the experts here at Horton&#;s O&P. Please feel free to explore our website or contact us to learn more about prosthetic legs by calling 501-683- for a consultation.

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