Lower Limb/Extremity Componentry

If you lose one foot, your lifestyle will change. Hanger Clinic can restore customer mobility by designing a prosthetic support solution that combines our patented ComfortFlex® socket system and state-of-the-art prosthetic components from all leading manufacturers.

At the hanger clinic, you can use the latest technology and the highest technology artificial brace anytime and anywhere. We will work with you and your medical team to create a custom prosthesis to help you achieve your goals.

Based on clinical innovation, the hanger clinic is a leader by introducing state-of-the-art prosthesis support solutions such as the ComfortFlex® socket system.

AK (artificial knee prosthesis) prosthesis is a combination of custom socket and support frame, knee unit, pylon and foot. Sometimes it may be necessary to interrupt packaging or harness

The lower limb prosthesis represents an artificial replacement limb located at or below the hip joint. About Ephraim et al. (2003) We discovered that worldwide estimated total limb amputation rate is 0-5.9 per 10,000 inhabitants. For the birth rate of congenital limb deficiency, they found 5-7.1 for every 10,000 newborns. The two major subclasses of the lower limb prosthetic device are the transsacral humerus (a congenital abnormality resulting in amputation of the humerus or congenital abnormalities) and the femoral artery (congenital abnormality resulting in femoral cut or femoral fracture) . In the prosthetic arts, the transsacral prosthesis is often referred to as "BK" or knee prosthesis, while the trans femoral prosthesis is often referred to as "AK" or knee prosthesis.

In human anatomy, the lower limb is a part of the lower limb between the knee and the ankle. The thigh is between the waist and the knee and forms the remaining lower limbs. The term leg or "lower leg" is often used to describe all legs. This article generally follows general usage. Evolution provides two different features to the human body: specialization of the upper limb for visually guided operation, and development of lower limbs to a mechanism particularly suitable for effective bipedalism. The ability to stand up is not human-specific, but other primates can accomplish this with a large amount of energy consumption in a short time. However, human adaptation to bipedal walking affects not only the foot but also the position of the center of gravity of the body, reorganization of the internal organs, the shape and biological mechanism of the trunk.