RU2737781C1 - Extension corset - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to extension corsets. Corset consists of a frame with support elements mechanically fixed on it. Corset comprises at least four support elements, the lower of which is located at the level of the pelvic ring and three at the level of the thoracic spine with orientation in the sagittal plane, of which two are located on the front surface of the thorax and one behind the spinal column in between. Frame between the support elements at the level of the lumbar spine has movable modules which exclude the axial displacement of the lower support element relative to three at the level of the thoracic spine. Frame and all support elements are equipped with fittings for individual adjustment of the corset taking into account anthropological parameters of the patient.

EFFECT: higher therapeutic effect and easier operation of the corset.

9 cl, 6 dwg

Description

The invention relates to medical equipment, namely to traumatology and orthopedics, and is intended for the treatment of patients with diseases and injuries of the thoracic spine, namely children and adolescents with diseases such as Scheuermann-Mau disease, severe kyphoscoliosis, juvenile kyphosis, as well as all categories patients with uncomplicated and complicated fractures, fracture dislocations of the thoracic vertebrae. The invention can be used as an independent medical device or an additional external fixator in patients operated on for spinal pathology.

Over the past 10 years, the number of patients with diseases of the spine has increased 14 times. Diseases of the spine rank 2-3 among the diseases that cause disability in patients with diseases of the musculoskeletal system. In the total number of injuries, spinal injuries account for 1-3%.

Known various designs of corsets, which were created in order to improve the effectiveness of treatment of diseases and injuries of the spine (RU, patent No. 2317800, class A61F 5/02, publ. 27.02.2008) [1], (RU, patent No. 216763, class. A61F 5/02, Publ. 05/27/2001) [2].

To accomplish the assigned tasks, corsets have a special shape, and various materials are used for their manufacture. One of the orthopedic corsets consists of a frame located along the back and a fastening system, which is connected to the frame, while the fastening system consists of upper and lower belts, horizontally covering the human body at the level of the chest and pelvis and connected to each other on the front or anterolateral surface torso, in addition, the corset fastening system has diagonal crossing belts directed from the frame forward to the belts horizontally covering the body. [one]. The disadvantage of this corset is that this corset cannot provide rigid correction (fixation) of the kyphotic deformity of the thoracic spine.

The closest in technical essence and the achieved result is an extension corset, consisting of a metal frame made in the form of a closed loop with pilots mechanically fixed on it, characterized in that the frame is made in the form of a one-piece contour with the possibility of plastic deformation along the entire perimeter for individual adjustment of the corset taking into account the anthropological parameters of the patient [2].

However, this design has several disadvantages. The nature of the location of the metal frame of the corset (in particular, its length) with support points at the top at the level of the sternum handle and the lower point at the level of the pelvic ring allows the corset to be used only for extension (fixation) of the thoracolumbar region (intermediate point). In addition, the frame of the corset (support frame) has a large length and, as a result, affects all parts of the spine involved in the fixation zone. In case of local deformity of the spine, it is necessary to perform local correction at this level, otherwise all spinal motion segments involved in the area of application of correcting external forces will undergo changes (unfavorable for intact spinal motion segments). This will have a negative effect with prolonged (years) use of the corset, which is possible with the correction of deforming dorsopathies (juvenile kyphosis, Scheuermann-Mau disease, kyphoscoliosis) in children and adolescents.

The technical result to be achieved by the present invention is to increase the therapeutic effect, ease of use of the corset and effective fixation and / or correction of the thoracic spine for the prevention and treatment of diseases and injuries of the thoracic spine.

The specified technical result is achieved by the fact that in the extension corset, consisting of a frame made in the form of a closed loop with mechanically fixed supporting elements on it, the corset contains at least four supporting elements, the lower of which is located at the level of the pelvic ring and three on the level of the thoracic spine with orientation in the sagittal plane, of which two are located on the anterior surface of the chest and one behind above the spine between them, while the frame between the supporting elements at the level of the lumbar spine has movable modules that exclude axial displacement of the lower supporting element relative to three at the level of the thoracic spine, while the frame and all supporting elements are equipped with fittings for individual adjustment of the corset taking into account the anthropological parameters of the patient.

For the manufacture of the corset frame, profiled metal or plastic, including composite, can be used. The use of profiled or composite materials has the goal of increasing the rigidity of the corset frame structure while reducing its weight.

For the manufacture of supporting elements of the corset, plastic was used (for example, plexiglass, polyethylene terephthalate, polystyrene, PVC or polyolefins), including composite.

Woven and / or non-woven material is also used for the manufacture of supporting elements of the corset.

The requirements for the material for the manufacture of support plates in contact with the body are due to its sanitary and hygienic characteristics (the material must be approved for use in the construction of corsets), must be light and practical in terms of processing / manufacture and comfortable in contact with the body and operation.

Support elements are additionally installed on the corset frame, oriented in the frontal plane. These support elements can be used if additional pressure is required on the patient's body in the frontal plane, for example, with concomitant scoliosis (kyphoscoliosis).

The movable modules of the frame are made of tension springs and / or hinges. The use of these elements as movable modules will preserve mobility in the lumbar spine and exclude its fixation when wearing a corset, at the same time will prevent axial displacement (i.e., changes in length along the axis of the spine) of the three supporting elements at the level of the thoracic spine relative to the lower supporting element. In the case of using the hinges, they must be positioned so as to ensure mobility in the sagittal plane, and in the case of using tension springs, they must be in a closed (neutral for these springs) position. In the case of using tension springs, movements are possible in several planes, however, there should also be no changes in length along the axis of the spine.

Accessories for individual fitting of the corset are made of slings and / or belts and / or cords and / or contact tape (Velcro) and / or mechanical locks. In fact, it is permissible to use any available sewing or special accessories for orthopedic products that provide ease of use and reliability of fixation.

Under the supporting elements of the corset are removable liners made of elastic material, for example, polyethylene foam, polyurethane foam, foam rubber, wadding or padding polyester.

The supporting elements of the corset are covered with a shock-absorbing pad, for example, foam rubber, polyethylene foam, polyurethane foam.

This is necessary for more comfortable wearing of the corset and more even distribution of pressure on the body surface. The liners can be removable for hygiene purposes, the support elements can have a non-removable cushioning pad made of washable hygienic material.

FIG. 1-4 depict various embodiments of the brace on a patient. Figure 5 shows an isometric view of the corset. FIG. 6 shows a diagram of the three-support correction of the sagittal deformity of the spine at the thoracic level

FIG. 1 is a side view, hinges are used as movable modules of the frame, supporting elements are additionally installed on the corset frame, oriented in the frontal plane. FIG. 2 is a side view; Tension springs are used as movable modules of the frame. FIG. 3 - frontal projection, front view, hinges are used as movable frame modules. FIG. 4 is a front view, tension springs are used as movable modules of the frame.

FIG. 5 shows an isometric view of the corset, schematically. FIG. 6 shows a diagram of the three-bearing correction of the kyphotic deformity of the thoracic spine.

The extension corset consists of a frame 1 made in the form of a closed loop with at least four supporting elements mechanically fixed on it, the lower 2 of which is located at the level of the pelvic ring (Figs. 1-5). The lower support element (2) serves as a base support (“foundation”) and covers the body at the level of the pelvic ring and prevents the corset from displacement relative to the body, namely the three supporting elements (3-5) of the thoracic region.

Three supporting elements (3-5) at the level of the thoracic spine are oriented in the sagittal plane to provide a corrective effect. Two (3, 4) support elements are located on the front surface of the chest, one support element (3) at the level of the lower chest and the other support element (4) at the level of the upper chest. The third support element (5) of the thoracic region is located behind the spine (between the support elements 3 and 4), according to the scheme of three-support correction of the kyphotic deformity of the spine (Fig. 6). The frame of the corset between the supporting elements at the level of the lumbar spine has movable modules (6), excluding axial displacement of the lower supporting element (2) at the level of the pelvic ring relative to three (3-5) at the level of the thoracic spine.

The frame (1) of the corset and all supporting elements (3-5) are equipped with fittings (7) for individual adjustment of the corset taking into account the anthropological parameters of the patient

The supporting elements (2-5) of the corset can be made of woven and / or non-woven material (8), or plastic (9).

Support elements are additionally installed on the corset frame, oriented in the frontal plane (10), Fig. one.

An extension corset is made individually according to a plaster cast of the human body, or a 3D scan or in some other way, or in accordance with the size of a person, as a result of which the corset frame and its constituent elements (supporting elements, movable modules) correspond or are as close as possible to the surface relief the patient's body. The corset fittings provide an individual adjustment of the device and an increase in pressure on the correction zones, and, accordingly, increases the corrective function of the corset.

An anesthetic corset is applied as follows: a lower support element 2 is applied to the pelvis lying on the back or a standing patient, the frame of the corset 1 is adjusted in accordance with the constitutional characteristics of the patient so that the movable modules (tension springs) 6 are at the level of the lumbar spine, and the two front supporting elements (3, 4): at the level of the body / xiphoid process of the sternum and at the level of the handle of the sternum. Movable modules 6 at the level of the lumbar spine allow it to maintain movement and normal physiological biomechanics in it. Supporting elements 10, oriented in the frontal plane, are installed at the places of intended contacts with the patient's body, if necessary. The third supporting element 5 of the thoracic spine is installed (behind the chest) on the apex of the kyphosis (projection of the damaged segment of the spine, in case of a fracture). To implement local extension of the thoracic spine with fittings 7, the pressure on this posterior supporting element of the thoracic spine is increased - the manipulation is performed lying on the back (to increase the correction). After this, the patient can rise and move. The corset is also removed in the supine position (to exclude the "rebound" effect), in reverse order.

The prosthetic corset was tested on the basis of prosthetic and orthopedic enterprises in St. Petersburg in 5 adolescents with Scheuermann-Mau disease and showed a positive result. The corset can also be used to treat patients with fractures of the thoracic spine.

Claims (9)

1. Extension corset consisting of a frame made in the form of a closed loop with supporting elements mechanically fixed on it, characterized by the fact that the corset contains at least four supporting elements, the lower of which is located at the level of the pelvic ring and three at the level of the thoracic spine with orientation in the sagittal plane, of which two are located on the anterior surface of the chest and one behind above the spine between them, while the frame between the supporting elements at the level of the lumbar spine has movable modules that exclude axial displacement of the lower supporting element relative to three at the level of the thoracic spine, the frame and all supporting elements are equipped with fittings for individual adjustment of the corset taking into account the anthropological parameters of the patient. 2. Extension corset according to claim 1, characterized in that profiled metal or plastic, including composite, is used for the manufacture of the corset frame. 3. Extension corset up to item 1, characterized in that plastic (for example, plexiglass, polyethylene terephthalate, polystyrene, PVC or polyolefins), including composite, is used for the manufacture of the supporting elements of the corset. 4. Extension corset according to claim 1, characterized in that woven and / or non-woven material is used for the manufacture of supporting elements of the corset. 5. An extension corset according to claim 1, characterized in that supporting elements oriented in the frontal plane are installed on the corset frame. 6. Extension corset according to claim 1, characterized in that the movable modules of the frame are made of tension springs and / or hinges. 7. Extension corset according to claim 1, characterized in that the accessories for individual adjustment of the corset are made of slings and / or belts and / or cords and / or contact tape (Velcro) and / or mechanical locks. 8. Extension corset according to claim. 1, characterized in that under the supporting elements of the corset are removable liners made of elastic material, such as polyethylene foam, polyurethane foam, foam rubber, batting or padding polyester. 9. An extension corset according to claim 1, characterized in that the supporting elements of the corset are covered with a shock-absorbing pad, for example, foam rubber, polyethylene foam, polyurethane foam.

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