RU2749897C1 - Apparatus for treatment of combined fractures of pelvic and femoral bones - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: apparatus for treatment of combined fractures of pelvic and femoral bones comprises a left and a right pelvic supports and a pubic unit equipped with a femoral module. Each support consists of two flat arcs equipped with holes, interconnected in pairs, located one above the other. From the rear edge, the upper and lower arcs are connected by a threaded rod. From the front edge, the arcs are connected by a rectangular bar provided with holes. An L-shaped plate is cantilevered on the upper arc. One end of the L-shaped plate is fixed to the arc with a bolt at the junction of the arc with the bar, and the free end of the plate is equipped with a longitudinal slot-hole. The bars of the left and right pelvic supports are connected by two parallel threaded rods equipped with a fixable single-axis hinge installed in the middle part of the length of the rod. A threaded rod is installed on one rod, whereon two bone screws intended to be inserted into the pubic bones are fixed. Each bar comprises a through hole in the middle wherein a bone screw intended to be inserted into the anterior superior spine of the iliac wing is installed. The left and right pelvic supports each contain two bone screws intended to be inserted into the iliac wing. One of the bone screws is located on the superior arch closer to the posterior edge thereof. The second bone screw is located on the L-shaped plate. The upper arc is longer than the lower arc. The bat in the middle part is made cylindrical. The middle through hole in the bar is made in form of a groove with cylindrical recesses inclined relative to each other, intended to accommodate a bone screw. The single-axis hinge connecting the threaded rod is equipped with a toothed fixating element. One hinge bracket comprises teeth. The second hinge bracket comprises a movable, spring-loaded pin intended to prevent spontaneous rotation of the hinge. The threaded rod of the pubic unit is equipped with a single-axis hinge. A femoral module is connected to one pelvic support through a fixated spherical hinge mounted on the lower arc, wherein said module comprises two rings with cross spokes intended to fixate the distal femur. The rings are connected to the pelvic support by a frame whereon bone fixating elements are installed on sliders, configured to execute dosed movement along and across the frame, intended to be inserted into the fragments of the femur. The frame is configured to execute dosed movement relative to the rings and the pelvic support. The rings are connected by a telescopic distraction rod with the lower threaded rod. The threaded connections are equipped with nut screws. The bone screws and the rods are installed on brackets.

EFFECT: invention allows to stabilise pelvic and femoral bones in the anatomically correct position and to perform postoperative correction of the position of bones and fragments.

4 cl, 9 dwg

Description

Technology area

The technical solution relates to medical technology, and concerns external fixation devices designed for the treatment of combined fractures of the pelvic and femur bones, for the reposition of bone fragments of the thigh and pelvic bones.

State of the art

Combined injuries to the pelvic ring and femur pose a threat to the patient's life, and often lead to disability. Unstable bone fragments, broken connections in the pelvic ring, lead to damage to internal organs. The severity of a pelvic injury is determined by severe pain syndrome, massive blood loss and traumatic shock. External fixation devices allow to stabilize the patient's skeleton in the next period of injury. Minimally invasiveness, the ability to manipulate fragments and bones in the acute and early periods of traumatic illness with concomitant injury make the use of external fixation devices promising. But the known device designs have drawbacks.

Known device for reposition and fixation of fractures of the pelvic bones (source [1]: patent No. RU 2159091, 2000). A device for the reduction and fixation of pelvic fractures, contains two half-arcs, with two or more pairs of thrust threaded rods fixed in them with the help of fixing nodes, a reduction unit. In the half-arcs, with the help of fixing nodes, threaded thrust rods are rigidly fixed, inserted into the pelvis, the half-arcs are interconnected by means of a reduction unit, which has the ability to expand by increasing the gap in the telescopic rods, move the rods in a horizontal plane, and also the possibility of damper fixation, while a node for skeletal traction is attached to the semi-arcs, in which a threaded rod inserted into the femur is damped.

The device [1] does not provide fixation of the femur in case of fracture, pubic bones in case of fracture or rupture of the pubic articulation, the pelvic supports are located at the same level and do not provide rigid fixation of the pelvis in the presence of multiple fractures.

Known apparatus for osteosynthesis of the pelvis (source [2]: patent No. RU 125060, 2012). The device contains two supports, each of which is made in the form of plates with holes, interconnected by means of brackets. The bone fixators are fixed on the support plates with the help of fixation rods. In this case, the latter are interconnected by jaws connected by an axis, some ends of which, with the help of hinges, are fixed on the indicated supports, and the others are equipped with a threaded tie connecting them. The parts of the apparatus are secured with bolts and nuts.

The device [2] does not provide fixation of the femur, pubic bones, pelvic supports do not provide the ability to fix the pelvic bones from the back.

Known device for bringing down the femur (source [3]: patent RU 169919; Published: 06.04.2017). The device contains pelvic and femoral modules. The pelvic module (static) is made of two arcs, left and right, connected to each other in the horizontal plane by telescopic distraction rods. Spokes and / or intraosseous rods are attached to each of the arcs. The left arch is designed for attachment to the wing of the left iliac bone, the right arch is for attachment to the wing of the right iliac bone. Femoral module (dynamic), consists of an arc and two rings arranged in series one above the other, connected to each other. Each ring has spokes that are designed to be attached in the distal part of the femur. Intraosseous rods are installed on the arch of the femoral module, which are designed to be attached to the femur in the region of the greater trochanter. The pelvic module is pivotally connected to the femoral module by telescopic distraction rods directed in the distal-lateral direction from the pelvic module to the femoral module. Three telescopic distraction rods are installed, through hinges, one end on the arch of the femoral module, the other end on the right (left) arch of the pelvic module. The fourth telescopic distraction rod is mounted through the hinges on the ring of the femoral module, with the other end mounted on one of the telescopic distraction rods connecting the arcs of the pelvic module in the horizontal plane.

The device [3] does not provide fixation of the bones of the pubic articulation, does not allow changing the mutual angular position of the pelvic bones fixed in the pelvic module, since the telescopic distraction rods of the pelvic module are parallel to each other and have no hinges. Fixation of the pelvis is carried out only for the wing of the ilium, while the anterior superior spine is not used, which does not allow to distribute the load on the bone evenly. The femoral module does not allow repositioning of the femoral bone fragments.

A device for treating injuries and consequences of injuries to the pelvic bones is known (source [4]: RU 182009; 2018). The device contains a static pelvic module, static and dynamic femoral modules. The pelvic module is made of two sectoral arcs connected by a transverse beam. The archwire is attached to the left wing of the ilium of the pelvis by means of screw rods. The archwire is attached to the right wing of the ilium of the pelvis by means of screw rods. The pelvic module 1 contains two supports made in the form of half rings and rigidly connected to the sectoral arcs. Semirings contain pins and / or rods of screws designed to be held in the supra-acetabular region of the ilium. The static femoral module is located on the intact side of the pelvis and consists of an arch and a ring connected by rods. The ring has spokes that are designed to be attached in the distal part of the femur. Intraosseous rods are installed on the arch, which are intended for attachment to the femur in the region of the greater trochanter. The dynamic femoral module is located on the damaged side of the pelvis and consists of a ring on which the spokes are installed, intended for attachment in the distal part of the femur. The ring of the dynamic femoral module is connected by four telescopic distraction rods to the sectoral arch of the pelvic module. Telescopic distraction rods are hinged on a sectoral arc. The static and dynamic femoral modules are interconnected by hinged beams.

The device [4] has a cumbersome design, does not allow repositioning of bone fragments of the femur, does not provide fixation of the pubic articulation bones, does not allow changing the mutual angular position of the pelvic bones fixed in the pelvic module, since the transverse beam has no hinges.

Known modular system of external fixation of the pelvic bones (source [5]: Guidelines for the operating technique "Modular external fixation system Hoffmann 3" firm Stryker Trauma AG, 2012 pp. 32-36. "Pelvic Osteotaxis Frame." Publication number: 982366. Ed. 2). System [3] contains straight rods connected by spring-loaded clamps, each clamp connects two rods. Bone screws inserted into the pelvic bones are installed on the rods by means of fixators. To fix the pelvis, 5 to 6 rods are used, which also serve as a support for bone screws.

The system [5] does not provide a rigid fixation of the pelvic bones, since it contains many joints (fixators connect the rods) in each of which there is micromobility. Taken together, the micromovement of the clamps leads to the fact that the system does not provide the necessary cruelty. In addition, when fixing the pubic articulation, the iliac bones, the structure becomes bulky, the ends of the rods stick out everywhere, which interfere with the patient and the staff. The system does not provide a stable position of the bones fixed in it when the fixators are loosened, which does not make it possible to confidently manipulate the pelvic bones fixed in the system in order to change their relative position from vicious to anatomically correct. Fixation of the pelvis is carried out only for the wing of the ilium, while the anterior superior spine is not used, which does not allow to distribute the load on the bone evenly. The system does not allow for the reposition of both the bone fragments of the femur and the pelvic bones.

Known rod external fixation device for osteosynthesis of the pelvis (source [6]: Tilyakov Akbar Burievich, Valiev E.Yu., Ubaidullaev BS The use of rod external fixation device in the complex treatment of unstable fractures of the pelvic bones in concomitant injury // NMP. 2014. No. 2. URL: https://cyberleninka.ru/article/n/primenenie-sterzhnevogo-apparata-vneshney-fiksatsii-v-kompleksnom-lechenii-nestabilnyh-perelomov-kostey-taza-pri-sochetannoy-travme (date of access: 08/19/2020). The device contains the left and right pelvic supports and the pubic node. Each support consists of two flat arches equipped with holes, and in pairs connected to each other one above the other. From one edge, the back, the arches are connected by a threaded rod, from the front edge of the arc are connected by a rectangular beam equipped with holes.The upper arc contains an L-shaped plate, one end of which is fixed on the arc, and the free end is equipped with a longitudinal slot-hole. The beams of the left and right support are connected by two parallel straight lines p threaded rods equipped with an axial hinge in the middle of their length. The pubic node is located on one threaded rod: by means of brackets, a straight threaded rod is installed on the threaded rod, on which two bone screws are fixed, intended for insertion into the pubic bones. Each bar contains one through hole, in which a bone screw is installed, designed to be inserted into the anterior-superior spine of the iliac wing. The left and right supports each contain two bone screws, one located on the superior arch and the other located on the L-shaped plate, intended for insertion into the anterior part of the superior iliac crest.

The apparatus [6] does not provide fixation of the femur, reposition of its fragments and stabilization of the injured lower limb. The device [6] does not allow changing the mutual angular position of the pelvic bones fixed in the pelvic supports when the pubic node is installed, since the threaded rod has no hinges, which complicates the bringing of the bones into the anatomically correct relative position, such as it was before the injury. When the relative position of the pelvic supports is changed, by bending the threaded rods in the axial hinges, it is not possible to quickly fix the threaded rods at a given angle. Axial hinges do not provide instantaneous position fixing capability. Bone screws in the beams are installed perpendicular to the longitudinal axis of the threaded rods and cannot change their position without changing the length of the threaded rods, which limits the possibility of their introduction into the anterior iliac spine. The upper arch of the pelvic supports does not allow the introduction of the fixing bone screw into the posterior surface of the pelvic bones. Fixation of the pelvis is carried out only for the anterior and upper part of the wing of the ilium, while there is no possibility of fixation in other places, for example, along the posterior surface, sometimes this does not allow to distribute the load on the bone evenly. The pubic node does not allow changing the position of the pubic bones when the pubic articulation is ruptured. The threaded rods are threaded along their entire length, which favors the accumulation of dirt in the grooves of the screw thread.

Thus, the existing analogs have drawbacks, which complicates their use and limits their applicability.

The essence of the technical solution

This technical solution is aimed at providing the possibility of intraoperative minimally invasive reduction of the pelvic and femur bones, in case of damage to the bones and their joints, ensuring the possibility of fixing the bones in an anatomically correct position with the possibility of postoperative correction, facilitating the installation and control of the apparatus when manipulating the bones fixed in it. and fragments.

The technical result consists in providing the possibility of stabilizing the bones of the pelvis and femur in the anatomically correct position, with the possibility of postoperative correction of the position of bones and fragments.

The technical result is achieved by the fact that the apparatus for the treatment of combined fractures of the pelvic and hip bones contains left and right pelvic supports and a pubic node, and is equipped with a femoral module. Each support consists of two flat arcs equipped with holes, connected in pairs, located one above the other. From the rear edge, the upper and lower arcs are connected by a threaded rod, from the front edge of the arcs are connected by a rectangular beam provided with holes. An L-shaped plate is cantilevered on the upper arc, one end of the plate is bolted to the arc, at the junction of the arc with the beam, the free end of the plate is equipped with a longitudinal slot-hole. The beams of the left and right pelvic support are connected by two parallel threaded rods equipped with a fixed single-axis hinge installed in the middle of the rod length. A threaded rod is installed on one rod, on which two bone screws are fixed, intended for insertion into the pubic bones. Each bar in the middle contains a through hole in which a bone screw is installed, designed to be inserted into the anterior-superior spine of the iliac wing. The left and right pelvic supports each contain two bone screws intended for insertion into the wing of the ilium, one bone screw is located on the upper arch, closer to its posterior edge, the second bone screw is located on the L-shaped plate, and the upper arch is longer than the lower one. The beam in the middle part is cylindrical, the middle through hole in the beam is made in the form of a groove with cylindrical recesses, made at an angle to each other, intended for a bone screw. The single-axis hinge connecting the threaded rod is equipped with a toothed lock, one hinge bracket containing teeth, the second hinge bracket containing a movable spring-loaded spike designed to prevent spontaneous rotation of the hinge. The threaded rod of the pubic assembly is equipped with a uniaxial hinge. A femoral module is connected to one pelvic support, through a fixable spherical hinge mounted on the lower arch, containing two rings with cross wires designed to fix the distal femur. In this case, the rings are connected to the pelvic support by a frame, on which, with the possibility of dosed movement along and across the frame, bone clamps are installed on the sliders, intended for insertion into the fragments of the femur. The frame is installed with the possibility of dosed movement relative to the rings and the pelvic support. The rings are connected by a telescopic distraction rod with a lower threaded rod. Threaded connections are equipped with nuts, bone screws and rods are mounted on brackets.

The beam contains transverse threaded holes, in which the wing screws are installed, designed to abut against the ends of the threaded rods.

The device provides fixation of the pelvis and femur, reposition of fragments and bones, stabilization of the injured pelvis and lower limb. The device allows you to change the mutual angular position of the pelvic bones fixed in the pelvic supports when the pubic node is installed, since the threaded rod of the pubic node has a hinge. When the relative position of the pelvic supports changes, by bending the threaded rods in the axial hinges, it is possible to quickly fix the threaded rods at a given angle due to the toothed lock, thereby the single-axis hinge provides the ability to instantly fix the position of the threaded rod. Bone screws in the bars can be set at an angle to the longitudinal axis of the threaded bars. The upper arch of the pelvic supports is longer than the lower arch and allows the insertion of the fixing bone screw into the posterior surface of the pelvic bones. The femoral module allows bone fragments to be repositioned in the desired direction and fix them, as well as to change the position of the femur relative to the pelvis, correcting its position in the acetabulum. The hinge joint of the femoral module with the pelvic support allows the development of movements in the hip joint in the postoperative period (for this, the traction is disconnected).

It is stipulated that the parts are made of stainless steel alloy of 12X18N10T grade, 20X13 grade and / or titanium alloys.

It is envisaged that the frame contains a strain gauge and a control unit equipped with a non-volatile memory and a means of wireless packet data transmission on the magnitude of the compressing force.

Embodiments of the technical solution are illustrated by graphic materials:

Fig. 1 is a general view of the apparatus with a femoral module for the left thigh;

Fig. 2 is a front view of the apparatus, mounted on the bone;

Fig. 3 is a side view of the apparatus, mounted on the pelvis and femur;

Fig. 4 is a general view of the apparatus installed on the pelvis and femur;

Fig. 5 is a general view of the pelvic supports of the apparatus;

Fig. 6 is a general view of the beam;

Fig. 7 is a general view of a uniaxial hinge with a toothed retainer;

Fig. 8 is a general view of the apparatus with a femoral module for the right thigh;

Fig. 9 is a strain gauge sensor on a frame.

The graphic materials indicate:

1 - left pelvic support;

2 - right pelvic support;

3 - pubic node;

4 - femoral module;

5 - upper arc;

6 - lower arc;

7 - holes;

8 - threaded rod;

9 - beam;

10 - holes;

11 - plate;

12 - bolt;

13 - slot hole;

14 - upper threaded rod;

15 - lower threaded rod;

16 - hinge;

17 - threaded rod;

18 - bone screw;

19 - pubic bones;

20 - through hole;

21 - bone screw;

22 - wing of the ilium;

23 - bone screw;

24 - bone screw;

25 - cylindrical section;

26 - groove;

27 - cylindrical recesses;

28 - toothed retainer;

29 - hinge bracket;

30 - teeth;

31 - hinge bracket;

32 - movable spring-loaded spike;

33 - uniaxial hinge;

34 - fixed spherical hinge;

35 - ring;

36 - knitting needles;

37 - distal femur;

38 - frame;

39 - slider;

40 - bone fixators;

41 - fragments of the femur;

42 - telescopic distraction rod;

43 - nut;

44 - bracket;

45 - transverse threaded holes;

46 - wing screw;

47 - strain gauge sensor;

48 - control unit.

Exercise device

Example 1 (Fig. 1; 2; 3; 4; 5; 6; 7). The device for the treatment of combined fractures of the pelvic and femur bones contains left 1 and right 2 pelvic supports, pubic node 3, and a femoral module 4 for the left hip. Each support 1 and 2 consists of two flat arcs 5 and 6 equipped with holes 7. Arcs 5 and 6 are located one above the other and are connected in pairs. The upper arc 5 is longer than the lower arc 6. From the rear edge, the upper 5 and lower 6 arcs are connected by a threaded rod 8 with nuts 43. From the front edge, the arcs 5 and 6 are connected by a rectangular beam 9 provided with holes 10. Arcs 5 and 6 are attached to the end of the beam 9 with a bolt 12. On the upper arc 5, an L-shaped plate 11 is cantilevered, fixed with a bolt 12. One end of the plate is fixed with a bolt 12 on the arc 5, at the junction of the arc 5 with the beam 9. As a result, the arcs 5 and 6 and plate 11 when loosening the tightening of the bolt 12 have the ability to rotate relative to beam 9. The free end of the plate 11 is equipped with a longitudinal slot-hole 13. Beams 9 of the left 1 and right 2 pelvic supports are connected by two parallel threaded rods 14 and 15, equipped with a fixable single-axis hinge 16 installed in the middle of the length of the rod 14 and 15 On the lower threaded rod 15 there is a threaded rod 17 of the pubic assembly 3, on which two bone screws 18 are fixed, intended for insertion into the pubic bones 19. Each This beam 9 in the middle contains a through hole 20, in which a bone screw 21 is installed, intended for insertion into the anterior-superior spine of the iliac wing 22. The left 1 and right 2 pelvic supports each contain two bone screws 23, 24 intended for insertion into the wing of the ilium 22. Moreover, the bone screw 23 can be introduced into the posterior surface of the ilium, due to the fact that the upper arch 5 is longer than the lower 6 and its end is located in the posterior part of the ilium 22. The bone screw 23 is located on the upper arch 5, closer to its rear edge. The bone screw 24 is located on the L-shaped plate 11. The beam 9 in the middle part is cylindrical, contains a cylindrical section 25. The middle through hole 10 in the beam 9 is made in the form of a groove 26 with cylindrical recesses 27 made at an angle to each other, intended under the bone screw 21. Cylindrical recesses 27 are made transverse to the longitudinal axis of the beam 9 and rotated towards each other made around the longitudinal axis of the beam 9. The single-axis hinge 16 connecting the threaded rod 14 is equipped with a toothed lock 28. Moreover, one bracket 29 of the hinge 16 of the threaded rod 14 contains teeth 30, the second bracket 31 of the hinge 16 of the threaded rod 14 contains a movable spring-loaded spike 32 designed to prevent spontaneous rotation of the hinge 16 of the threaded rod 14. The threaded rod 17 of the pubic assembly 3 is equipped with a single-axis hinge 33. To the pelvic support 1, through a fixed spherical hinge 34, installed on the lower arch 6, the femoral module 4 is connected, soda neighing two rings 35 with cross spokes 36, designed to fix the distal 37 of the femur. In this case, the rings 35 are connected to the pelvic support 1 by a frame 38, on which, with the possibility of dosed movement along and across the frame 38, on the sliders 39 bone fixators 40 are installed, intended for insertion into the fragments 41 of the femur, which allows them to be fixed and repositioned. The frame 38 is installed with the possibility of dosed movement relative to the rings 35 and the pelvic support 1, which allows you to select the level of installation of the frame 38 and perform compression or distraction. Rings 35 are connected by a telescopic distraction rod 42 with a lower threaded rod 15. Threaded connections are equipped with nuts 43, bone screws 18, 23, 24 and a rod 42 are mounted on brackets 44. The parts are made of stainless steel alloy 12x18n10t and 20X13.

Example 2 (Fig. 6, 7, 8, 9). The device for the treatment of combined fractures of the pelvic and femur bones contains left 1 and right 2 pelvic supports, pubic node 3, and a femoral module 4 for the right thigh. Each support 1 and 2 consists of two flat arcs 5 and 6 equipped with holes 7. Arcs 5 and 6 are located one above the other and are connected in pairs. The upper arc 5 is longer than the lower arc 6. From the rear edge, the upper 5 and lower 6 arcs are connected by a threaded rod 8 with nuts 43. From the front edge, the arcs 5 and 6 are connected by a rectangular beam 9 provided with holes 10. Arcs 5 and 6 are attached to the end of the beam 9 with a bolt 12. On the upper arc 5, an L-shaped plate 11 is cantilevered, fixed with a bolt 12. One end of the plate is fixed with a bolt 12 on the arc 5, at the junction of the arc 5 with the beam 9. As a result, the arcs 5 and 6 and plate 11 when loosening the tightening of the bolt 12 have the ability to rotate relative to beam 9. The free end of the plate 11 is equipped with a longitudinal slot-hole 13. Beams 9 of the left 1 and right 2 pelvic supports are connected by two parallel threaded rods 14 and 15, equipped with a fixable single-axis hinge 16 installed in the middle of the length of the rod 14 and 15 On the lower threaded rod 15 there is a threaded rod 17 of the pubic assembly 3, on which two bone screws 18 are fixed, intended for insertion into the pubic bones 19. Each This beam 9 in the middle contains a through hole 20, in which a bone screw 21 is installed, intended for insertion into the anterior-superior spine of the iliac wing 22. The left 1 and right 2 pelvic supports each contain two bone screws 23, 24, intended for insertion into the wing of the ilium 22. Moreover, the bone screw 23 can be introduced into the posterior surface of the ilium, due to the fact that the upper arch 5 is longer than the lower 6 and its end is located in the posterior part of the ilium 22. The bone screw 23 is located on the upper arch 5, closer to its rear edge. The bone screw 24 is located on the L-shaped plate 11. The beam 9 in the middle part is cylindrical, contains a cylindrical section 25. The middle through hole 10 in the beam 9 is made in the form of a groove 26 with cylindrical recesses 27 made at an angle to each other, intended under the bone screw 21. Cylindrical recesses 27 are made transverse to the longitudinal axis of the beam 9 and rotated towards each other made around the longitudinal axis of the beam 9. The single-axis hinge 16 connecting the threaded rod 14 is equipped with a toothed lock 28. Moreover, one bracket 29 of the hinge 16 of the threaded rod 14 contains teeth 30, the second bracket 31 of the hinge 16 of the threaded rod 14 contains a movable spring-loaded spike 32, designed to prevent spontaneous rotation of the hinge 16 of the threaded rod 14. The threaded rod 17 of the pubic assembly 3 is equipped with a single-axis hinge 33. To the pelvic support 2, through a fixed spherical hinge 34, installed on the lower arch 6, the femoral module 4 is connected, soda neighing two rings 35 with cross spokes 36, designed to fix the distal 37 of the femur. In this case, the rings 35 are connected to the pelvic support 2 by a frame 38, on which, with the possibility of dosed movement along and across the frame 38, on the sliders 39 bone fixators 40 are installed, intended for insertion into the fragments 41 of the femur, which allows them to be fixed and repositioned. The frame 38 is installed with the possibility of dosed movement relative to the rings 35 and the pelvic support 2, which allows you to select the level of installation of the frame 38 and perform compression or distraction. The frame 38 contains a strain gauge 47 and a control unit 48 equipped with a nonvolatile memory and means of wireless packet data transmission on the amount of the compressing force, which is necessary for remote control of the efforts by the attending physician. Rings 35 are connected by a telescopic distraction rod 42 with a lower threaded rod 15. Threaded connections are equipped with nuts 43, bone screws 18, 23, 24 and a rod 42 are mounted on brackets 44. Beam 9 contains transverse threaded holes 45 in which wing screws 46 are installed, designed to abut against the ends of the threaded rods 14, 15. The parts are made of titanium alloy.

The device is used in traumatology and orthopedics, for the treatment of combined injuries of the pelvic and hip bones, pelvic joints.

The device allows for reduction and osteosynthesis of combined pelvic injuries and femoral fractures using minimally invasive surgical techniques, which allows early activation and rehabilitation of patients. The device shown in example 1 provides fixation of the pelvis and femur, reposition of fragments and bones, stabilization of the injured pelvis and lower limb. The device allows you to change the mutual angular position of the pelvic bones fixed in the pelvic supports when the pubic node is installed, since the threaded rod of the pubic node has a hinge. When the relative position of the pelvic supports changes, by bending the threaded rods in the axial hinges, it is possible to quickly fix the threaded rods at a given angle due to the toothed lock, thereby the single-axis hinge provides the ability to instantly fix the position of the threaded rod. Bone screws in the bars can be set at an angle to the longitudinal axis of the threaded bars. The upper arch of the pelvic supports is longer than the lower arch and allows the insertion of the fixing bone screw into the posterior surface of the pelvic bones. The femoral module allows bone fragments to be repositioned in the desired direction and fix them, as well as to change the position of the femur relative to the pelvis, correcting its position in the acetabulum. The hinge joint of the femoral module with the pelvic support allows the development of movements in the hip joint in the postoperative period (for this, the traction is disconnected). The apparatus shown in example 2 allows you to do the same as the apparatus shown in example 1, while additionally providing the possibility of remote control of the forces transmitted to the frame, and also providing the convenience of performing manipulations with beams 9 and threaded rods 14 and 15, due to the use of screws - lugs 46, allowing to fix the threaded rods 14 and 15 in the beams 9 without the use of distraction nuts 43, i.e. during intraoperative manipulations with the device aimed at changing the relative position of the pelvic bones, there is no need to tighten the nuts on the threaded rods 14 and 15, it is enough to tighten or unscrew the thumbscrew 46 to fix or release the threaded rod 14 and 15. In the postoperative period, the threaded rods 14, 15 on the beams 9 are fixed with nuts 43, which allow for a metered mutual displacement of the pelvic supports 1 and 2.

The use of the apparatus is carried out as follows. In the position of the patient on the back under local, and most often general anesthesia, by a closed method, channels are formed in the anteroposterior spine (in the suprauterine region) of the wing of the ilium 22 and bone screws 21 are inserted into the left and right ilium. Bone screws 21 are inserted to the depth of the thread. A pre-assembled structure is installed on the bone rods 21, containing beams 9 of the left 1 and right 2 pelvic supports connected by two parallel threaded rods 14 and 15, equipped with fixable uniaxial hinges 16 with a pubic node without bone screws 18, intended for insertion into the pubic bones 19. Bone the screws 21 are inserted into the grooves 26 of the beams 9 and are fixed with nuts 43. The beam 9 in the middle part is cylindrical in shape, contains a cylindrical section 25, and the through hole 10 in the beam 9 is made in the form of a groove 26 with cylindrical recesses 27 made at an angle to each other , which allows the installation of bone screws 21 at an angle. The distance between the beams 9 is adjusted using nuts 43 installed at the ends of the threaded rods 14 and 15, for example 2, in this case, wing screws 46 are used. The angle between the beams 9 is adjusted using axial hinges 16. The single-axis hinge 16 connecting the threaded rod 14 is equipped with a toothed lock 28. Move aside the movable spring-loaded pin 32, designed to prevent spontaneous rotation of the hinge 16 of the threaded rod 14, turn the threaded rods to the required angle and release the movable spring-loaded pin 32, it blocks the achieved threaded rods 14 and 15. Next, collect the left 1 and right 2 pelvic supports, attaching arcs 5 and 6 and L-shaped plates 11 to beams 9. Bone screws 23,24 are inserted into the wing of the ilium 22, bone screw 23 is inserted into the posterior surface of the ilium, and fixed with a bracket on the superior arch 5. Bone screw 24 fixed on the plate 11. Bone fixators 40 are inserted into the fragments of the femur, the rings 35 are mounted by passing the needles 3 6 into the distal femur. To the pelvic support 1 or 2 (depending on which left or right limb the femoral module is used for), through a fixed spherical hinge 34, attach the frame 38 and connect it to the ring 35. Bone fixators 40 are connected to sliders 39. To move the bone fixators and the fragments fixed in them use nuts 43 on sliders 39. The frame 38 is installed with the possibility of dosed movement relative to the rings 35 and the pelvic support 1, which allows you to select the level of installation of the frame 38 and perform compression or distraction. Rings 35 are connected with a telescopic distraction rod 42 with a lower threaded rod 15. Under the control of an image converter, vertical and diagonal displacement of the pelvic halves is eliminated by traction along the axis of the lower extremities. Holding the pelvic supports 1 and 2, they displace the pelvic bones in the required direction, while the pelvic supports have the ability to rotate relative to the beams 9, and the threaded rods 14 and 15 can change their position due to the axial hinges 16. Due to this, intraoperatively eliminates the displacement of damaged structures and adjust the dislocations of the joints. The angle between the beams 9 is adjusted using axial hinges 16. The uniaxial hinge 16 connecting the threaded rod 14 is equipped with a toothed lock 28. Move the movable spring-loaded spike 32, designed to prevent spontaneous rotation of the hinge 16 of the threaded rod 14, turn the threaded rods to the required angle and release the movable spring-loaded spike 32, it blocks the achieved threaded rod 14 and 15. Bone screws 18 are inserted into the pubic bones 19, fixing them to the threaded rod 17 of the pubic node 3, on which two bone screws are fixed 18. Thus, angular displacements and deviations of the position of the pelvic bones from anatomically correct position, correct dislocations in the joints. Having reached the required position of the pelvic bones, tighten the bolts 12, nuts 43, fix the hinges 16, stabilizing the position. Using a telescopic distraction rod 42, the position of the femoral module 4 relative to the pelvic support 1 (or 2) is changed, giving the desired position to the thigh. Having achieved the required position, the spherical hinge 34 is tightened. Bone fragments of the femur are repositioned. To move the bone fixators 40 and the fragments fixed in them, nuts 43 are used on the sliders 39. The frame 38 is installed with the possibility of dosed movement relative to the rings 35 and the pelvic support 1, which allows compression or distraction. For example 2, where the frame 38 contains a strain gauge 47 and a control unit 48 for remote control, read the signal from the control unit 48 and determine the amount of effort, which allows you to control the compression and distraction. The femoral model is stabilized by tightening the nuts 43 of the hinge 34 and the brackets fixing the rod 42. The threaded rods 14 and 15 create lateral compression, which ensures stable fixation of the bone fragments and halves of the pelvis in the position of anatomical reduction.

In cases where one-stage reduction in full was impossible due to the severity of the patient's general condition, the position of the fragments was corrected gradually, in the postoperative period, by moving the pelvic supports 1 and 2 of the apparatus relative to each other, moving the femoral module 4 relative to the pelvic supports 1 or 2, moving the frame 38 and bone fixators 40. The time of immobilization in the apparatus is on average 6 to 8 weeks.

Claims (4)

1. Apparatus for the treatment of combined fractures of the pelvic and femur bones, containing left and right pelvic supports and a pubic node, equipped with a femoral module, each support consists of two flat arches equipped with holes, connected in pairs, located one above the other, from the posterior edge the upper and lower arcs are connected by a threaded rod, from the front edge of the arc are connected by a rectangular beam equipped with holes, an L-shaped plate is mounted on the upper arc, one end of the plate is bolted to the arc, at the junction of the arc with the beam, the free end of the plate is equipped with a longitudinal hole -slit, the beams of the left and right pelvic supports are connected by two parallel threaded rods equipped with a fixable uniaxial hinge installed in the middle part of the rod length, a threaded rod is installed on one rod, on which two bone screws are fixed, intended for insertion into the pubic bones, each beam in the middle contains a through hole in which a bone screw is installed, intended for insertion into the anterior-superior spine of the iliac wing, the left and right pelvic supports each contain two bone screws intended for insertion into the iliac wing, one bone screw is located on the superior arch, closer to its posterior edge, the second the bone screw is located on an L-shaped plate, and the upper arch is longer than the lower one, the beam in the middle part is cylindrical, the middle through hole in the beam is made in the form of a groove with cylindrical notches made at an angle to each other, intended for a bone screw connecting the threaded the single-axis hinge bar is equipped with a toothed lock, and one hinge bracket contains teeth, the second hinge bracket contains a movable spring-loaded spike designed to prevent spontaneous rotation of the hinge, the threaded rod of the pubic node is equipped with a uniaxial hinge, to one pelvic support, through a fixed spherical hinge mounted on the lower doo ge, a femoral module is attached, containing two rings with cross needles designed to fix the distal femur, while the rings are connected to the pelvic support by a frame on which, with the possibility of dosed movement along and across the frame, bone clamps are installed on the sliders designed for introduction into the fragments of the femur, the frame is installed with the possibility of dosed movement relative to the rings and pelvic support, the rings are connected by a telescopic distraction rod to the lower threaded rod, threaded connections are equipped with nuts, bone screws and the rod are installed on brackets. 2. Apparatus according to claim 1, characterized in that the beam contains transverse threaded holes, in which the thumbscrews are installed, designed to abut against the ends of the threaded rods. 3. Apparatus according to claim 1, characterized in that the parts are made of stainless steel alloy 12X18N10T, 20X13 and / or titanium alloys. 4. Apparatus according to claim 1, characterized in that the frame comprises a strain gauge and a control unit equipped with a non-volatile memory and means of wireless packet data transmission on the magnitude of the compressing force.

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