Custom hip prosthesis – manufacturing, adjustment, rehabilitation.

What is a steg prosthesis?

Steg prosthesis – This is a high-tech device that allows people after amputation to restore mobility and return to an active life. Thanks to modern materials and technologies, quilted prosthetics can be light, handy and highly functional.

Modular dentures

Current solutions for stable running and high mobility

In case of amputation on the lower limbs, we produce modular prostheses that incorporate advanced technologies, lightweight and inexpensive materials and individual approaching the skin patient. The design of the prosthesis ensures maximum stability, comfort and control during walking, sitting and adjusting to everyday movements.

• 1. Cooksoprimal sleeve

  An individually prepared socket is the main element that ensures the transfer of interest between the implant and the prosthesis.

  Gilzi Plant — ensure stability, control and maximum comfort during heavy travel.

• 2. Sleeve adapter

  Serve for connecting the sleeve with other components of the prosthesis and for precise individual adjustment. Allows you to adjust the weights, including the height and height of the structure.

• 3. Kolіnny vuzol

  The key functional element of the prosthesis. Depending on the needs and level of activity of the patient, different types of knee mechanisms are identified: •

  • mechanical column assemblies with clamps and a polycentric system;
  • hydraulic and pneumatic mechanisms for smooth bending and lifting;
  • microprocessor wheel systems (MPC) for the most natural running and safety when changing speed, on exits and on rough surfaces. •
• 4. Support module

  The single knee joint is connected to the foot and ensures the integrity of the structure. The module is manufactured from aluminum, titanium or carbon materials.

• 5. Prosthetic foot

  The foot is selected carefully depending on the level of activity, activity and individual needs of the patient.

• Cuccoprimary sleeve – is prepared individually, ensuring greater fit and comfort.
• Sleeve adapter – an element that connects the socket with other parts of the prosthesis.
• Coliny University – will ensure natural flow and possibly a mechanical or electronic control system.
• Supporting module – serve as the main frame part of the prosthesis.

Foot – represents the depreciation and support functions, modeling the natural flow of man.

Fixation systems and sleeve types

Fixation and fastening systems for prosthesis

Vacuum fastening system (standard)

Most vacuum seals are secured with vacuum fastenings, which guarantees:

• smoother fit of the sleeve;
• stability of the prosthesis;
• rub the lower part of the riziku;
• natural appearance control

For reliable fastening of the sleeve, it is most common to use a vacuum system. Vacuum fastening creates additional stability and ensures an even distribution of distribution. The stretching process involves twisting an elastic bandage or a special stretchy cover, which is pulled through the opening of the sleeve. After this, a vacuum is created behind the valve, which firmly fixes the sleeve.

To remove the prosthesis, it is enough to open the valve and remove the primary sleeve from the cup.

There are different types of sleeves:

• Quadro-lateral (transverse-oval) – It provides a horizontal platform for landing on the saddle hump, ensuring additional stability.
• Late-oval – You can bury the sciatic hump for quick fixation.

Attaching the prosthesis you can get help:

• waist fastening;
• elastic bandage;
• silicone liner.

Alternative options for fastening the prosthesis

Around the vacuum system, the prosthesis can be fixed with additional help:

• waist fastening – (for additional stabilization in folding cases);
• elastic bandage
• silicone liner – with mechanical types of fixation (pin-lock, valve, hybrid systems).

The choice of fastening should be kept depending on the length of time, the use of different fabrics, the level of patient activity and the characteristics of the walk.

Advantages of our modular steg prostheses

• Individual production using modern technologies.
• Discovery of lightweight and durable materials.
• Possibility of establishing both simple and high-tech MPC systems.
• Maximum stability and comfort when walking.
• Adaptability to different levels of activity — from casual to sports.
• Continuous support of the patient from the initial consultation before the start of the course.

• Structural features

  The prosthesis is equipped with a special module, which plays the role of the hip joint and provides the necessary biomechanics of the arm. For an even distribution of attention, a custom-made corset is used, which hugs the pelvic part of the body and functions as the main support.

• Keruvannaya with a prosthesis

  Using such a prosthesis will require more physical effort than other levels of amputation. The patient actively touches the muscles of the chest and upper parts of the body to maintain evenness and elasticity. Therefore, an important part of rehabilitation is the development of walking techniques and the use of a lingual corset.

• Our testimony

  Our technicians provide a wide range of evidence for the preparation of prostheses after strengthening of the stitch. The skin prosthesis is created individually — based on the patient's anatomy, physical capabilities and rehabilitation goals. We use the highest quality materials and reliable components to ensure maximum comfort, stability and safety during use.

Feet without joints

Artless feet are indicated for patients with low to moderate activity. They have a wear-resistant, reliable design that ensures elasticity when stepping on footing or rolling.

Stop joints

Focused on patients with low to moderate activity. This is a reliable solution for first-time or summer patients with amputation on the level of the vertex to ensure more natural transition. It is also recommended for use in prosthetic limbs with a locking knee joint.

Carbon (energy saving) feet

Carbon feet are reserved for active patients who have a medium to high level of mobility. After an hour of walking, such feet will provide springiness when stepping on the foot, a dynamic transition during the transfer phase, as well as universal elasticity and compensation for unevenness of the supporting surface. This is achieved through the use of structural elements made of composite materials (carbon and elastomer), which improve hand grip and improve walking dynamics.

Prosthetics for bathing

Safety, comfort and freedom of the riverside

Bath prostheses are intended for patients with amputation on the lumbar or lumbar sides. The stinks allow you to safely carry out hygienic procedures, take off your shoes at the water basins, drain the pool and feel like it’s time to stop the whiteness of the water.

Such prostheses are designed with improved elasticity and ease of viewing.

Features of such prostheses:

• Technological openings for changing buoyancy.
• Waterproof feet.
• Vacuum or belt fastening.

Prosthetic steg for bathing

Materials

Like the Homilk option, the prosthetic steg is prepared from ball-shaped, water-resistant plastic, which is completely resistant to contact with water.

Options

The prosthesis can be fixed together ways:

• Waterproof locking joints, adapted to stand near water.
• Hingleless foot for maximum reliability and durability.

Mounting system

• vacuum fastenings,
• belt system, which ensures additional stability in water.

Advantages of prostheses for bathing

• Resistant to water ingress and corrosion.
• Simply and reliably fastening in the watery minds.
• Lightweight, quick and easy to use.
• Possibility of safe transfer in the pool, shower and natural ponds.
• Comfortable rotation to active repair

Preparation before prosthetics

Rehabilitation and Preparation begins immediately after amputation. At what stage it is important:

• put away the nabryak;
• carry out compression therapy;
• Know your language and prepare them before you start;
• learn to keep an eye on the kuksa.

How to go through the process of prosthetics?

• Consultation – important design, patient needs and level of mobility.
• Knowing the world – Testing of materials is carried out, and the looseness of suglobs is assessed.
• Preparation of individual sleeve – one of the most important stages.
• Fitting and adjustment – the patient begins to use a prosthesis.
• Final installation – After adaptation, the finished product appears.

Design of cost-free security

To remove a frameless prosthesis, you need to press:

• passport;
• identification code;
• a summary about the need for prosthetics;
• advancement of higher education (for consumption);
• Information about the conditions of injury for military personnel.

Stages of functional capabilities

• I stage – transfer in a place with a support.
• II stage – interchange the posture of the premises.
• III stage – neobmezhene peresuvannya be-de.
• IV stage – mobility is active due to high demand.