RU2517605C2 - Orthopaedic device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to the field of medical equipment and is intended for application in traumatology and orthopaedics for resetting a dislocated shoulder. An orthopaedic device contains, at least, one post, on which a seat and a back are placed. The upper edge of the back is made with a hollow for axilla of a patient, who sits sideways on the seat with the arm placed over the back. In the upper part a hollow is made in such a way that it partially embraces from the front and from behind the shoulder joint of the patient, who sits sideways on the seat with the arm placed over the back. On the back surface of the back there is, at least one bearing area for placement of the arm of the patient, who sits sideways on the seat with the arm placed over the back. The orthopaedic device contains traction, made with a possibility of connection with the device for the forearm embracing, made in a form of L-shaped sleeve. Traction is made in a form of mechanical traction from a set of detachable loads and a hook, adapted for placing on it demountable loads and made with a possibility of connection with the L-shaped sleeve.

EFFECT: invention makes it possible to increase efficiency of the shoulder dislocation treatment due to improvement of work conditions, convenience of application, reliability of fixation of the patient's position and position of the shoulder by providing optimal stop, which takes into account anatomic characteristics of the shoulder joint and axilla.

13 cl, 8 dwg

Description

The invention relates to medicine, namely to traumatology and orthopedics, and can be used to relieve dislocation of the shoulder.

Currently, in emergency rooms for the adjustment of shoulder dislocation, a standard technique is used, based on the use of an orthopedic device in the form of a regular chair. The patient is seated on a chair sideways, and the arm is thrown over the back of the chair so that the armpit rests on the upper part of the back of the chair. The doctor takes the patient’s hand with one hand, puts the other hand on top of the forearm and presses the hand down with his weight. With sufficient anesthesia and patient relaxation, dislocation in the shoulder joint is eliminated. The main conditions for successful shoulder adjustment in this case is the need for the patient to sit straight with a straight back, and the angle in the elbow joint was strictly 90 °. To fulfill these conditions, the following is required. Firstly, the upper part of the back of the chair, which forms the emphasis, should have an optimal configuration, taking into account the anatomical features of the shoulder joint and the shape of the armpit. Secondly, the patient’s hand should be as relaxed as possible, which is ensured by adequate anesthesia and psychological conversation with the patient. Thirdly, it should be possible to adjust the emphasis by adjusting the height of the back of the chair, depending on the overall dimensions of the patient.

The main disadvantage of an orthopedic device in the form of a standard chair is the low efficiency of dislocation treatment, which is due to the lack of an optimal stop taking into account the anatomical features of the shoulder joint and the shape of the armpit, and is also aggravated by the inability to adjust the stop by adjusting the height of the back of the chair depending on the patient’s overall dimensions. In addition, the inability to reposition a dislocation using autonomous traction, i.e. traction without the participation of a doctor, limits functionality and, thereby, also reduces the effectiveness of the treatment of dislocations.

Known orthopedic apparatus for reposition of bones of the upper limb according to patent No. 475997, which is used both for reposition of fractures and for the reduction of dislocations of the shoulder. The apparatus contains a shoulder retainer and a brush retainer interconnected by brackets and rods. The principle of operation of the device is based on the extension of the forearm. The device is fixed on the hand, the function of the traction for the brush performs the latch of the brush. The disadvantages of orthopedic devices of this kind include the following. The shoulder fixer is bulky, the design is complex and the whole is fixed on the patient, which is difficult and inconvenient. Traction occurs due to the rotation of the bracket and does not imply the possibility of manual traction, nor is it possible to carry out traction without the participation of a doctor, which limits the functionality. There is no possibility of regulation of an emphasis of axillary area.

Known orthopedic device in the form of an orthopedic multifunctional chair according to the patent No. 87333 for a utility model, selected as the closest analogue. The orthopedic multifunctional chair contains a base on which, for adjustable legs, the lower leg support and seat are pivotally mounted on the transverse axis. The support for the lower legs is made in the form of a common supporting platform with an adjustable emphasis of inclination forward and backward, and the seat is pivotally mounted on a vertical axis and is equipped with an adjustable emphasis for the back, i.e. the back. The seat is mounted on a telescopic stand with the possibility of rotation about a vertical axis and fixation at the desired height from the base. It is also pivotally mounted on an axis passing through the center of the section. In the normal position, the seat rotates freely in two planes and, if necessary, can be fixed with special clamps in any intermediate position. The lumbar support (back) is fixed to the seat with clamps, ensuring its extension up - down and tilt to the desired angle. The upper part of this emphasis is made using elastic (foamed) materials, which provides comfort for the back and lower back. After placing the user, the seat is tilted forward, the lower legs rest against the support platform, and the dorsal support (back) rests on the lower back. The movable seat allows you to quickly change the height from the base, the angle of inclination, rotate the seat around the vertical axis. The back rest allows you to use the chair with great comfort in other positions, namely for both traditional sitting and reclining position.

However, the orthopedic device described above has several disadvantages. The main disadvantage is the low efficiency of treatment of dislocations due to poor working conditions and inconvenience of use, low reliability of fixing the position of the patient and the position of his shoulder, which is due to the backrest without taking into account the possibility of using it as an axillary stop, taking into account the anatomical features of the shoulder joint and the shape of the axillary troughs. In addition, there is no possibility of repositioning the dislocation using autonomous mechanical traction without the participation of a doctor, which limits the functionality and, thereby, also reduces the effectiveness of the treatment of dislocations.

The invention is aimed at solving the problem of increasing the effectiveness of the treatment of shoulder dislocations with the simultaneous simplicity of the orthopedic device by improving working conditions, improving usability, increasing the reliability of fixing the position of the patient and the position of his shoulder, as well as by the possibility of choosing manual or mechanical traction and, therefore, expanding functionality by providing optimal emphasis, taking into account the anatomical features of the structure of the shoulder joint and armpit.

The essence of the invention lies in the fact that in an orthopedic device comprising at least one rack on which the seat and back are mounted, it is proposed that the upper edge of the back be made with a recess for the armpit of the patient sitting sideways on the seat with his hand thrown over the back, in the upper part, the recess is made so that it partially covers the shoulder joint of the patient sitting sideways on the seat with his hand thrown over the back, and there is at least one supporting point on the back surface of the back flap for placing the brush of a patient sitting sideways on the seat with his hand thrown over the back, in addition, the orthopedic device comprises a thrust made with the possibility of connecting with the means for covering the forearm, made in the form of an L-shaped sleeve, while the thrust is made in the form of mechanical traction from a set of removable weights and a hook adapted for installing removable weights on it and made with the possibility of connection with the L-shaped sleeve.

The backrest can be made in an arcuate shape.

The orthopedic device can be equipped with means for adjusting the height and fixing the position of the back.

The orthopedic device can be equipped with means for adjusting the height and fixing the position of the seat.

In an orthopedic device, the rack can be mounted on movable supports made primarily in the form of wheels or rollers.

In the orthopedic device in the lower part, the edge of the recess of the back can be made with a thickening of soft material.

In this case, the supporting platform for accommodating the patient’s hand may be made of soft material from the side adjacent to the hand.

The orthopedic device may contain a base on which the rack rests, while in the rear of the base there are two half-open cylindrical wells for storing mechanical traction in the form of a hook with a set of removable loads.

In an orthopedic device, the L-shaped sleeve can be made so that it repeats the shape of the elbow joint of the patient’s hand and has a longitudinal section, between the edges of which a lumen is formed, while the sleeve covers at least half the diameter of the hand.

The L-shaped sleeve can be made so that a hard material, primarily plastic, is located outside, which makes it possible to change the shape of the sleeve by changing its diameter and then restoring it, and soft material is located inside, mainly foam rubber with a fabric coating. In this case, the soft material, which is located inside the L-shaped sleeve, can exit into the gap between the edges of the cut, passing into a plastic tongue.

The L-shaped sleeve can be made so that it is provided with at least one clasp or a lock that regulates the degree of coverage of the patient's hand.

The L-shaped sleeve can be made so that it is equipped with a attachment to the rod, which includes a metal insert or patch plate, which in the lower elbow part is connected to a small metal rod with a metal rod that extends beyond the L-shaped sleeve in the elbow area ball at the end.

In the proposed orthopedic device, the implementation of the upper edge of the back with a recess for the armpit of the patient, sitting sideways on the seat with his hand thrown over the back, allows to improve the simple and reliable classic method of using the back of the chair as an axillary stop when adjusting the dislocation of the shoulder by taking into account the anatomical features of the structure of the shoulder joint and armpit. While simplicity and study of the use of the back of the chair as an axillary emphasis, the proposed orthopedic device by optimizing the shape of the back of the chair not only improves working conditions, improves ease of use, improves the reliability of fixing the position of the patient himself, as well as the position of the patient’s shoulder, but also provides versatility , i.e. the ability to choose manual or mechanical traction, and, therefore, provides enhanced functionality, which as a result allows to increase the effectiveness of the treatment of dislocations.

Moreover, the excavation of the arcuate shape allows you to most accurately repeat the contours of the armpit and, thus, provides the optimal form of emphasis.

The implementation of the orthopedic device so that it contains a base on which the stand with the seat and back rests, helps to increase the compactness of the device, improve ease of use by increasing the stability of the device, as well as the reliability of fixing the patient himself and his injured limb.

The presence of at least one half-open cylindrical well in the back of the base for storing mechanical traction in the form of a set of removable weights and a hook adapted for installing removable weights on it and made with the possibility of fastening to the L-shaped sleeve, improves the compactness of the device and improves usability.

The implementation of the rack with the seat and backrest on movable supports in the form of wheels or rollers, contributes to the ease of adjusting the position of the chair on the floor or on the base.

Moreover, the connection of the base with the floor also improves the stability of the device.

The implementation of the device so that it can contain at least one rack on which a seat and backrest are installed, equipped with means for adjusting and fixing their position, provides the ability to adjust the stop position by adjusting the height of the back of the chair, which allows to achieve optimal fixation of the patient, regardless of its complexion and size.

Running in the lower part of the recess of the back with a thickening of soft material also contributes to ease of use, eliminates discomfort from the hard edge.

The recess in the upper part so that it partially covers the front and rear shoulder joint of the patient sitting sideways on the seat with his hand thrown over the back also helps to increase the reliability of fixing the patient’s shoulder.

The implementation on the back surface of the back of at least one supporting platform for placing the hand of a patient sitting sideways on the seat with his hand thrown over the back helps to improve the usability and reliability of fixing the hand when adjusting a dislocation with autonomous traction, i.e. provides the choice of the implementation of manual or mechanical traction and, therefore, expands the functionality. At the same time, the implementation of the support platform for fixing the patient’s hand from soft material from the side adjacent to the hand eliminates the discomfort from the hard edge.

The execution of the L-shaped sleeve so that it repeats the shape of the elbow joint of the patient’s hand and has a longitudinal section, between the edges of which a lumen is formed, while the sleeve covers at least half the diameter of the arm, which allows ensuring the position of the elbow joint at right angles to high accuracy and stability time of the entire procedure, thereby ensuring not only its reliable fixation, but also ease of use.

The execution of the L-shaped sleeve so that hard material is located outside, mainly plastic, which makes it possible to change the shape of the sleeve by changing its diameter and then restoring it, and soft material is located inside, mainly foam rubber with a fabric coating, on the one hand, ensures its strength , and on the other hand - comfort and ease of use. Moreover, the execution of the L-shaped sleeve so that the soft material that is located inside the L-shaped sleeve extends into the gap between the edges of the cut, passing into the plastic tongue, also contributes to ease of use.

The execution of the L-shaped sleeve so that it is equipped with at least one clasp or lock, regulating the degree of coverage of the patient’s hand, provides increased sleeve strength, increased reliability of the fixation of the patient’s limbs and ease of use.

The implementation of the orthopedic device so that it contains mechanical traction made with the possibility of connecting with the means for covering the forearm, made in the form of a L-shaped sleeve, allows you to choose the best option for the implementation of traction - manual or mechanical without the participation of a doctor and thereby increase the efficiency of the procedure .

The execution of the L-shaped sleeve so that it is equipped with a attachment to the rod, which includes a metal insert or patch plate, which in the lower elbow part at the base of the bend is connected to a small metal rod extending beyond the L-shaped sleeve in the elbow area with a metal ball at the end, provides the possibility of simple and reliable connection with a means of mechanical traction in the form of a hook with a set of removable loads, which extends the functionality of the device due to the possibility suschestvleniya autonomous traction without the participation of a physician.

The invention is illustrated by drawings. Figure 1 shows a General view of an orthopedic device in isometry; figure 2 shows the orthopedic device, front view; figure 3 shows the orthopedic device, side view; figure 4 shows the orthopedic device, a view in plan; figure 5 shows the L-shaped sleeve, front view; figure 6 shows the L-shaped sleeve, a section aa in figure 5; Fig.7 shows the L-shaped sleeve, a General view in isometry. Fig. 8 shows a variant of using an orthopedic device for reposition of a dislocation with a patient sitting sideways with his hand thrown over the back of the chair, in the autonomous traction mode without the participation of a doctor, side view.

Figure 1 shows an example of the proposed orthopedic device containing a base 1, on which stands 2 with mounted seat 3 and back 4, designed to accommodate the patient.

In the back of the base 1 there are two half-open cylindrical wells 5 for storing mechanical traction in the form of a set of removable weights 6 and a hook 7, adapted for installing removable weights 6 on it and connecting to the L-shaped sleeve 8.

The stand 2 is mounted on movable supports, for example, on the rollers 9. The base 1 is equipped with means for adjusting and fixing the position of the device in the form of guides 10 on which the stand 2 is mounted to move along the base 1, as well as to block movement. In this case, the base 1 can be connected to the floor, which is not shown in the figures. The backrest 4 and seat 3 are made with soft upholstery. The upper edge of the back 4 is made with an arcuate recess 11 for the armpit of the patient sitting sideways on the seat with his hand thrown over the back, as shown in Fig. 8. In the lower part, the edge of the recess 11 is made with a thickening 12 of soft material. In the upper part, the recess 11 is made with tides 13, which partially cover the front and back of the shoulder joint of a patient sitting sideways on the seat with his hand thrown over the back. On the back surface of the backrest 4, two pads 14 are provided located at the edges of the backrest 4 on the left and right. Each platform 14 forms a bed for accommodating the hand of a patient sitting sideways on the seat with his hand thrown over the back 4. Each supporting platform 14 is made of soft material from the side adjacent to the brush.

The seat 3 and backrest 4 are equipped with means for adjusting and fixing their height position. The height of the seat 3 is regulated by a pneumatic mechanism located under the seat 3 with an adjustment pedal 15. The backrest 4 is mounted on a metal telescopic stand 16 with the possibility of adjusting its height relative to the seat 3.

The L-shaped sleeve 8 repeats the shape of the elbow joint of the patient’s hand and has a longitudinal section, between the edges of which a gap is formed, while the sleeve 8 covers at least half the diameter of the arm. The L-shaped sleeve 8 comprises a housing 17 in the form of a L-shaped tubular element with a longitudinal section along the entire length. The housing 17 is made of durable hard material, for example plastic, capable of, however, bending and providing the possibility of changing the shape of the sleeve 8 by changing its diameter with its subsequent restoration. Inside the housing 17 there is an insert 18 made of soft material, for example, fabric coated foam rubber. The insert 18 extends into the gap between the edges of the cut of the housing 17 and passes into a plastic tab 19. Outside, the housing 17 is provided with three fasteners 20, similar to the locks of ski boots. With the help of the fasteners 20, the sleeve 8 is fixed on the elbow joint of the patient and the degree of coverage of the patient's arm is regulated. The L-shaped sleeve 8 is equipped with a tie-down mount which includes an insert or patch metal plate 21, which in the lower elbow portion is connected to a small metal rod 22 extending beyond the sleeve 8 in the elbow bend, ending in a metal ball 23. The length of the rod 22 and the dimensions of the ball 23 correspond to the dimensions of the means of mechanical traction in the form of a set of removable weights 6 and a hook 7. The metal plate 21 provides the necessary rigidity of the housing 17 made of plastic and the shape stability different sleeve 8, repeating the shape of the elbow joint.

Orthopedic device operates as follows.

Depending on the nature of the injury the patient has, the doctor chooses the mode of reposition of the dislocation of the humerus with mechanical or manual traction.

Orthopedic device in the mode of reduction of dislocation of the humerus with mechanical traction works as follows. The patient is seated on the seat 3 sideways to the back 4, as shown in Fig. 8. The injured limb is thrown through the back 4 so that the axillary region enters the arcuate notch 11 of the upper back 4. Due to the arcuate shape of the notch 11, moderate thickening 12 of the upholstery, as well as tides 13, there is a reliable girth, fixation and emphasis of the axillary region and shoulder joint from the lower and lateral surfaces. This ensures the stability of the shoulder position and the presence of a comfortable stop, optimal from the point of view of the anatomical features of the shoulder joint. The patient should sit with his legs set on the floor and his back straight. This is ensured by adjusting the height of the seat 3 with the pedal 15 of the pneumatic mechanism and adjusting the height of the back 4 with the telescopic height adjuster in the form of a telescopic rack 16 of the back 4. As soon as the patient is in the correct and comfortable position, a sleeve is put on the elbow joint of the injured limb 8. Depending on the limb thickness, due to the elasticity of the body 17, the optimal girth is modeled and the sleeve 8 is fixed with three adjusting fasteners 20 according to the type of locks g rnolyzhnyh shoes. To maintain a right angle in the elbow joint, the patient’s brush is placed on a support platform 14 located with an edge on the back surface of the back 4. Then, a hook 7 connected to one of the weights is suspended from the rod 22 with the ball 23 protruding in the lower part of the sleeve 8 in the region of the elbow joint. 6. The hook 7 is put on a ball 23 protruding beyond the sleeve 6, thus connecting the traction means with the sleeve 8. For the convenience of storing the hook 7 connected to the load 6 and the additional loads 6, two half-open cylinders are located in the rear of the base 1 ble well 5. After suspending in the sleeve 8 of the hook 7 with one of the loads 6, it hang additional loads 6 having the structure of the pancake with a slot for the rod of the hook 7. Additional loads 6 are needed to provide optimal traction, i.e. the optimal weight of the cargo 6. Upon reaching the optimal weight of the cargo 6, which depends on the patient’s physique and achieved relaxation of the shoulder girdle, which is ensured by a psychological conversation with the patient and optimal local anesthesia, a dislocation is reduced. After the dislocation of the fastener 20, the sleeves 8 are unfastened, the limb is released from the sleeve 8. The patient is deployed in the usual position with his back to the back 4 and a Deso plaster bandage is applied to him.

In the mode of reduction of dislocation of the humerus with manual traction, the device operates similarly to the above with the difference that sleeve 8 is not put on and traction is carried out by hands, for which the patient is placed on the seat 3 sideways, throwing his hand through the back 4. The doctor approaches from the side of the patient’s hand the patient, with one hand takes the patient’s hand in the area of the hand, and does not place it on the supporting platform 14, and the doctor puts the other hand on the forearm from above in the area of the internal bend of the elbow joint and with its weight presses down the elbow bend until it is dislocated not set. After reduction, the patient’s dislocation is deployed in the usual position with his back to the back 4 and a Deso plaster cast is applied to him.

The proposed orthopedic device has the following advantages:

- provides an optimal form of an emphasis, taking into account the anatomical features of the structure of the shoulder joint and armpit, and simple adjustment of the emphasis in height, thereby ensuring ease of use and reliable fixation of the patient and injured limb in the correct position, regardless of the patient's size and composition;

- allows you to expand the functionality by providing the possibility of both manual traction and mechanical traction without the participation of a doctor.

Thus, the proposed device, while its simplicity and due to the optimization of the form of the stop made in the form of a back of a chair, not only improves working conditions, improves ease of use, improves the reliability of fixing the position of the patient himself, as well as the position of the patient’s shoulder, but also provides versatility , i.e. the choice of manual or mechanical traction, and, therefore, contributes to the expansion of functionality, which as a result allows to increase the effectiveness of dislocation treatment.

Claims (13)

1. An orthopedic device containing at least one rack on which a seat and backrest are installed, characterized in that the upper edge of the backrest is made with a recess for the armpit of the patient sitting sideways on the seat with his hand thrown over the back, and in the upper part the recess is made so that partially covers the front and rear shoulder joint of the patient sitting sideways on the seat with his hand thrown over the back, and on the back surface of the back there is at least one supporting platform for accommodating the patient’s hand and, sitting sideways on the seat with his hand thrown over the back, in addition, the orthopedic device includes a rod made with the possibility of connection with means for covering the forearm, made in the form of a L-shaped sleeve, while the rod is made in the form of a mechanical rod from a set of removable loads and a hook adapted for installing removable weights on it and made with the possibility of connection with the L-shaped sleeve. 2. The orthopedic device according to claim 1, characterized in that the recess is made in an arcuate shape. 3. The orthopedic device according to claim 2, characterized in that it is equipped with means for adjusting the height and fixing the position of the back. 4. The orthopedic device according to claim 3, characterized in that it is equipped with means for adjusting the height and fixing the position of the seat. 5. An orthopedic device according to any one of claims 1 to 4, characterized in that the rack is mounted on movable supports made primarily in the form of wheels or rollers. 6. Orthopedic device according to any one of claims 1 to 4, characterized in that in the lower part the edge of the recess is made with a thickening of soft material. 7. The orthopedic device according to claim 1, characterized in that the supporting platform for accommodating the patient’s hand is made of soft material from the side adjacent to the hand. 8. The orthopedic device according to claim 1, characterized in that it contains a base on which the rack rests, while in the rear of the base there are two half-open cylindrical wells for storing mechanical traction in the form of a hook with a set of removable loads. 9. The orthopedic device according to claim 1, characterized in that the L-shaped sleeve is made so that it repeats the shape of the elbow joint of the patient’s hand and has a longitudinal section, between the edges of which a gap is formed, while the sleeve covers at least half the diameter of the hand. 10. The orthopedic device according to claim 1, characterized in that the L-shaped sleeve is made so that there is a rigid material outside, mainly plastic, providing the ability to change the shape of the sleeve by changing its diameter with subsequent restoration, and inside is a soft material, predominantly fabric coated foam rubber. 11. Orthopedic device according to claim 10, characterized in that the soft material that is located inside the L-shaped sleeve extends into the gap between the edges of the incision, passing into a plastic tongue. 12. The orthopedic device of claim 10, wherein the L-shaped sleeve is provided with at least one clasp or lock that controls the degree of coverage of the patient's hand. 13. The orthopedic device according to any one of claims 1 to 3, characterized in that the L-shaped sleeve is equipped with a tie-in assembly, which includes a metal insert or patch plate, which in the lower elbow part is connected to the outside of the L-shaped sleeves in the elbow bend with a small metal rod with a metal ball at the end.

Images