SU1532029A1 - Arrangement for treatment of fractures of malleoluses - Google Patents

Abstract

A device for treating ankle fractures refers to orthopedics and traumatology. The purpose of the invention is to improve the reliability of immobilization of the limb during the entire period of treatment of fractures with displacement of bone fragments while improving the conditions of development of the foot. The device includes removable shin tires 1 and 2, made in the form of two detachable cradles, congruent to the relief of the side surfaces of the tibia and ankles with fasteners 3, as well as minustops, made in the form of telescopic rods 16 and 17, equipped with a compression mechanism in the form of a cylindrical body 34 with rod 40. At the same time, the foot tire has the ability to adjust its size in three mutually perpendicular planes and is connected by the lower leg tires 1 and 2 by the ankle joints 22 and 23, which have angular scales and are equipped with dressing mechanisms 54 and 55. Distal foot 19 Front tires made of an elastic material. 3 il.

Description

The invention relates to medical equipment, namely, devices for the treatment of ankle fractures.

The aim of the invention is to increase the reliability of immobilization of the limb during the entire period of treatment of fractures with displacement of bone fragments while improving the conditions of development of the foot.

FIG. 1 shows the device, a general view (in axonometric projection); in fig. 2 - diagram of the compression mechanism; in fig. 3 - ankle joint designs.

The device contains tires I, 2 tibia in the form of two detachable cradles congruent to the relief of the lateral surfaces of the tibia and ankles, fixation units 1, 2 to fastening element 3 in the form of threaded rods 4, 5 with sharp ends 6, 7 with spherical washers 8 , 9 and nuts 10, 11, installed in threaded holes .x 12-15. The tires 16, 17 of the foot are made in the form of telescopic rods with the possibility of adjusting their height and length with the help of locking screws 18. The remote section 19 of the tire 17 of the foot is made of an elastic material, for example rubber. The proximal ends 20, 2 tires 16 ankle hinges 22, 23 are connected with the distal ends 24. 25 tires 1, 2 of the leg. The ankle hinges 22, 23 are equipped with locking screws 26, 27 and angular scales 28, 29. The distal ends 30, 31 of the tire 16 of the foot 1 are the joints 32, 33 with the sagittal axes (not indicated) connected to the compression mechanism.

The compression mechanism contains a cylindrical body 34, a spring-loaded piston 35 mounted therein with a spring 36, a rod 37, equipped with an external thread 38 screwed on an internal thread 39 of the rod 40, which has metering locking protrusions 41, 42 located in the interval of 1 mm one from the other on its outer surface. The cost of dividing the step of compression of the protrusions 41, 42 is 0.5 mm. It is achieved by the fact that the axes of the protrusions 41 and 42 are located with an interval of 0.5 mm in relation to one another, thereby providing compression of the tissues of 0.25 mm on each side of the limb as post-traumatic edema clears and mixes. mechanism on one protrusion 41, 42 with the retention of the reached position by spring-loaded stoppers 43, 44. The compression force of this mechanism is achieved due to the force cn, ia to compress the spring 136. A spring 36 is installed between (35 and the protrusion 45 of the body 34). - cast by changing stock length 37 the piston 35 with a screwdriver, which is inserted into the hole 46 of the cylindrical body 34 and further into the slot 47 of the piston 35

d

0 5

0 5

five

and rotate clockwise, increasing, or counterclockwise, reducing the compressive force of the spring 36. The compressive value of the spring 36 is determined on a linear scale 48 of the window 49 of the housing 34, the ends 50, 51 of the cylindrical body 34 are rigidly connected to the tires 17 of the foot. The springs 52, 53 with the loading mechanisms 54, 55 serve to hold the foot in the middle physiological position and provide the load when developing movements in the ankle joint of the foot. The hinges 56-58, tires 1 and 2 of the lower leg, are connected to tires 17 of the foot. The tension forces of the springs 52,53 are adjusted by means of load mechanisms 54, 55. The distal half of the feet 17 of the foot is equipped with a fixation element — wide belts 59.

The device works as follows. Initially performed reposition bone fragments ankles and elimination of subluxation of the foot, then Aseptically and antiseptics carried transartikul polar fixation foot two spokes Kirschiera with thrust pads through scheyku heel bone, talus in thickness tibial to stop their thrust pads at the bottom the surface of the cervical bone in the area of the bone base of the apex of the medial longitudinal arch of the foot. The correctness of the reposition of ankle fragments and the passage of the spokes is monitored radiologically. Pressing the working ends of the nippers on the fabric of the fabric. The soles around the collar, 5–7 mm bite off the ends of the skin, leaving the bitten ends of the spokes thicker than the soft tissues of the sole. The wounds at the needle points are aseptically tied. After that, remove the i-aiki 10, 11 and their spherical washers 8, 9 from the threaded rods 4, 5 y3,: ia fixings. The height and length of the PIN 16, 17, the width of the compression mechanism is adjusted to the size of the foot's feet of the injured limb and their state is fixed with locking screws 18. The front foot section is fixed to the tire 17 with belts 59. When the tire height 16 is set and the width of the compression mechanism tires 1, 2 tibia have, respectively, the relief of the side surfaces of the tibia and ankles. The specified positions of the tires 1, 2, 16, 17 hold the bones of the fingers with their fingers, pressing them slightly against the covering tissues of the limbs. At this time, a circular gypsum dressing with a cotton-gauze underlay is applied to the proximal half of the leg; short to the upper border of the leg. When applying n () dk, 1 st and a plaster cast on the shin, they are strung on the sharp ends 6, 7 of the threaded rods 4, 5 1, 2, p.potno clamping for 2-2.5 cm to the skin. The edges of the linings are folded up and down to the sides of the plaster.

dressings, it is good to model the last to the relief of the proximal half of the lower leg with sufficient strength (14-16 layers of bandages in the proximal, 20-22 - in the distal half). Spherical washers 8, 9 are put on the ends of the threaded rods 4, 5 and the nuts 10, 11 are screwed in to fix them to the plaster bandage. The springs 52, 53 adjust, by equalizing the force of their tension. The positions of the ankle hinges 22, 23 are fixed with locking screws 26, 27, thereby creating a whole shin-foot splint from tires 1, 2 and 16, 17.

The force of compression of the spring 36 is adjusted to the lateral compression of the patient to slight perforation (usually it is equal to 0.9-1.5 kg).

Direct x-ray radiography is performed.

The limb is placed on the Beler splint before the plaster coat dries out and the post-traumatic swelling of the tissues is removed, and the state of the blood circulation of the soft tissues is observed. Within 2-3 days, an optimal compression force is chosen on the side surfaces of the lower leg and ankles of tires 1, 2, taking into account the individual peculiarities of the state of the tissues in each specific case. In the absence of signs of inflammation in the area of the spokes, circulatory disorders of the distal extremities and compression of the soft tissues of the side surfaces of the patients ankles, they are discharged for outpatient treatment. At the same time, it is recommended that the lateral compression force be constantly maintained at one given level using tires I, 2, ocyjiu ci- correction in outpatient conditions on a linear scale of 4S at the nominal screwdriver screwed in by UJTOK 37 por1.nn 35 as edema subsides or unscrewing the stem 37 as the swelling of the limb tissues increases, increasing or decreasing the degree of compression of the strings / kins 36, respectively. Functionally, the limb is loaded from the first days, starting to move from the toes and bringing them to the joints of the bones of the metatarsus, the hypogastrium and the joint, which helps to quickly normalize the blood circulation of the injured limb, the edema of the tissues and accelerates wounds. Gradually, the strength and volume of functional limb loads increase, focusing on the limb-state, pain in the area of injury, using the elasticity of the distal 19 of the foot bus 17.

After 4-8 weeks (depending on the complexity and severity of the damage to the ankles), tires 1, 2 of the lower leg and 16, 17 of the foot are removed from the limb. In this case, a threaded rod 4, 5 with spherical washers 8, 9, nuts 10, 11 are unscrewed from the tire 1, 2, thereby separating them from the fastening element 3. Springs 52, 53

they detach from the hinge 56 of the tire 1. The distal end 30 of the tire 16 is disconnected in the hinge 32 from the end 50 of the cylindrical body 34 by a compression mechanism. Tires I, 16 of one half, and tires 2, 16, 17 of the other half are sideways. By bringing the tires 1, 2 from under the fastening element 3 and sliding the tires of the foot 16, 17, the device is removed from the limb. A control radiography of the ankle joint is performed.

If there is a good bone in the ankle fracture, the spokes holding the foot to the tibia are removed. Pressing the end of the nippers on the soft tissues of the basement, their use;) the ends of the spokes are removed and, after being grabbed by the nippers, are removed by traction, and when the mold is weak, the needles are removed taking into account the formation of corn. rioc, i.e., removal of the spokes 1, 2 ro: ie, and 16, 17 of the foot, springs 52, ,, are sharpened on the limb in the reverse sequence, and are connected to the initial state.

The ankle hinges 22, 23 release the locking screw 1 from fixation with the screws 26, 27. The tension forces of the springs 52. 53 1: tanav, drink at the bottom of the barrel. Schipu. and gradually popping up as it comes back, reducing the number of muscles of the legginess and using 4f3HOBe iiiH bo. 1and. I begin the do.irchishnuk development of movements n gp.impchtoyn tave, uve, 1pchpv; every day, combining nob. of sgp with fi.Ch1; o-propeduram11 pa (lo.iacTi, i m imik ik toggy; joint. dis. hGsh kp kizheniI counter (). liruk1T in g . ::,; i 28, 29 g juvenous iiia if; x 2l 2.).

1the treatment of ne) e. 1mon 1o;, i-, ycTpoiicT-webs continue to end the deadline no. Of an adhesion n. X Kocinbix OI.IOMKOB and volume recovery is driven and oiiopociidС (.16 but and final I.

(Stable immobilization of cumulative scabs in a penunn) () B; iHi (OM but not independent of the spa.: 1) | severely edematous tissue swelling in the area of the first d); 1 enn, goto-arthropathy and C yupv: in the process of treatment of the pre-world HUit-i secondary c. displaced bone cups. 1) dv1Zhek.

The presence of (1-M () H1 azhpykh Tin I, 2 lopps of women 1 (), 17 cioin, w. | H1na ss. X-ray and its follow-up mon bone marrow in the area nz.yum. Yudy- zhk.

The elasticity of the distal O1de, 1a 19 HIH-17 of the foot improves the development of movements in the joints of the anterior section of the foot from the first days of treatment.

Formula iiiioCipCTcHUH

The device d, the treatment of trans.yumi lody zhek containing niHiii i go.theni p syuna with

fastener elements connected by ankle joints equipped with angular igals and connected by removable spring-loaded loading mechanisms, characterized in that, in order to increase the reliability of limb immobilization during the entire period of fracture treatment with displacement of the bone fragments while improving foot development conditions, our shins are made in the form of two lodgements congruent to the relief of the lateral

the shin and ankle surfaces and are removably mounted on the fastening elements of the shin tires, the foot tire is made in the form of telescopic rods connected by a compression mechanism with the possibility of adjusting its dimensions in three mutually perpendicular planes, the distal foot tire being made of elastic material, and the ankle hinges supplied with locking screws.

L7

1mm OjMM

59

-31

S5

Claims (1)

Claim Device for treating ankle fractures containing i-deer and foot tires with Крепления fastening elements connected by ankle joints equipped with angular scales and connected by removable spring-loaded loading mechanisms, characterized in that, in order to increase the reliability of immobilization of the limb during the entire treatment period of fractures with displacement of bone fragments while improving the conditions for developing the foot, there are tires in it the tibia is made in the form of two lodges, congruent to the relief of the side surfaces of the tibia and ankles and removably mounted on the fastening elements of the shin splints, the foot splint is made in ide telescopic rods connected by a compression mechanism with the possibility of regulation of its dimensions in three mutually perpendicular planes, and a distal foot Front tires made of an elastic material, and the ankle joints are provided with locking screws. So, Chauler Ch. Lukshin