CN113648041A - An internal fixation repair system for intertrochanteric fractures of the femur - Google Patents

Abstract

Translated fromChinese

本专利涉及一种用于股骨粗隆间骨折的内固定修复系统，将头部套筒固定于股骨粗隆间，在头部凸起套筒安装骨水泥螺钉，沿骨水泥螺钉中心孔置入球囊扩张器械在股骨头内部扩张出一个空腔，退出球囊扩张器械后沿骨水泥螺钉中心孔置入骨水泥注射器，在股骨头内部空腔注入骨水泥，旋转钢板部与股骨干贴合后将骨水泥螺钉锁紧在头部凸起套筒，第一锁定螺钉锁紧在头部螺纹中，螺纹尖端置入骨水泥中；接下来安装皮质骨加压螺钉和短锁定螺钉，最后整个钢板完全固定在股骨粗隆间，依靠头部的两颗螺钉在固定粗隆间骨折的同时起到防止骨折端旋转，增加骨折端的轴向加压及稳定性，有效地固定粉碎骨折块，有效防止钢板松动和骨折块移位，结构简单，便于医生操作。

This patent relates to an internal fixation and repair system for intertrochanteric fractures of the femur. The head sleeve is fixed in the intertrochanteric femur, a bone cement screw is installed on the protruding sleeve of the head, and a bone cement screw is inserted along the central hole of the bone cement screw. The balloon dilation device expands a cavity inside the femoral head, after withdrawing the balloon dilation device, insert a bone cement syringe along the central hole of the bone cement screw, inject bone cement into the cavity of the femoral head, and fit the rotating plate to the femoral shaft Then lock the bone cement screw in the head protruding sleeve, the first locking screw is locked in the head thread, and the thread tip is placed in the bone cement; then install the cortical bone compression screw and the short locking screw, and finally the entire The steel plate is completely fixed in the intertrochanteric femur, and the two screws in the head can prevent the rotation of the fracture end while fixing the intertrochanteric fracture, increase the axial compression and stability of the fracture end, and effectively fix the comminuted fracture fragment. It can prevent the loosening of the plate and the displacement of the fracture fragments, and the structure is simple, which is convenient for doctors to operate.

Description

Internal fixation repair system for intertrochanteric fracture of femur

Technical Field

This patent belongs to medical instrument technical field, concretely relates to internal fixation repair system for fracture between thighbone tuberosity.

Background

Femoral intertrochanteric fracture refers to fracture occurring at the junction of a femoral shaft and a femoral neck, and as the fracture is the position with the largest shearing force, most of the fracture is cancellous bone and is a part with good osteoporosis, the fracture is easily caused under the action of stress. In the process of curing the fractures, the adopted method is mainly to carry out internal fixation of the fractures by operation and internal fixation technology, thereby achieving the purposes of operation reduction and fracture stabilization. However, the intertrochanteric fracture of femur or intertrochanteric fracture of femur, which is an osteoporosis part, has the problems of insecurity, screw loosening, cutting, withdrawal and the like in the internal fixation process of fracture, and finally causes the failure of the internal fixation operation of fracture.

In recent years, doctors adopt bone cement screws for fixation, and the adopted method is to inject a certain amount of bone cement into bones to achieve the purpose of strengthening fixation, but the method of forcibly injecting the bone cement has obvious defects that the amount of the bone cement cannot be accurately controlled, the purpose of strengthening fixation cannot be achieved when the bone cement is injected too little, and the risk of bone cement leakage to joint cavities is caused when the bone cement is injected too much; in addition, the existing fracture repair system only adopts one bone cement screw to fix the bone folding plate, the convex sleeve arranged on the bone folding plate is approximately vertical to the bone folding plate at the joint, and the matching contact surface of the bone cement screw and the bone folding plate is too small, so that the bone cement screw cannot play a good role in fixation. Moreover, the head of the bone folding plate of the existing fracture repair system is bent towards one side of the femoral head, the screw hole is arranged on the periphery of the protruding sleeve, the screw is inserted into the screw hole to fix the steel plate body on the bone of the human body, at the moment, the steel plate body is stressed easily by applying pressure to the steel plate body through the screw, so that secondary injury is caused, the treatment effect is influenced, and when the screw is inserted into the femoral head of comminuted fracture, the stability is poor, and the secondary injury is easily caused to a patient. In addition, the existing system and the bone cement screw matched with the existing system have too few bone cement diffusion holes, so that the bone cement is difficult to diffuse in the inner cavity of the femoral head, the difficulty of bone cement injection is increased, the bone cement injection is less for patients with severe osteoporosis, the effect of stabilization and enhancement cannot be achieved, and the screw is loosened in the recovery stage after the operation is completed, so that the failure of internal fixation is caused. Therefore, the existing fracture repair system cannot treat patients with comminuted fracture or very severe osteoporosis at the femoral head.

Disclosure of Invention

In view of the above analysis, the present invention aims to provide an internal fixation repair system for intertrochanteric fracture of femur, which is used to solve one or more of the problems of the existing internal fixation repair system that the fracture end is at risk of rotation, which results in loosening of steel plate and displacement of fracture block, and that the fracture block cannot be effectively fixed.

The purpose of the invention is realized as follows:

an internal fixation repair system for an intertrochanteric fracture of a femur, comprising:

the locking sleeve plate comprises a main body and a head which are integrally arranged, and the head is provided with a raised sleeve and a first locking hole;

the bone cement screw is arranged in the protruding sleeve in a threaded mode and comprises a screw body, a central hole penetrates through the screw body along the axial direction, a bone cement diffusion hole is formed in the screw body, and the bone cement diffusion hole is communicated with the central hole;

a balloon dilation instrument forming a cavity inside a femoral head through the central bore;

a bone cement injector that injects bone cement into the cavity through the central bore and the bone cement diffusion bore;

a first locking screw inserted into the cavity through a first locking hole.

In a preferred embodiment of the present invention, the main body is a straight section, and the inner surface of the main body can be attached to the surface of the femoral shaft; the head is a curved section, and the inner surface of the head can be attached to the surfaces of the femoral head and the femoral shaft transition section.

In a preferred embodiment of the invention, the curved section comprises a first section with a first curvature and a second section with a second curvature, the first section being connected to the straight section in a transition manner, the second curvature being greater than the first curvature.

In a preferred embodiment of the present invention, the first locking hole is provided in the first section, and a center line of the first locking hole is parallel to a center line of the boss sleeve.

In a preferred embodiment of the present invention, the protruding sleeve is disposed on an inner side surface of the second section, the protruding sleeve is provided with an internal thread, and a connection hole is disposed on an outer side surface of the second section, and the connection hole is communicated with the protruding sleeve.

In a preferred embodiment of the present invention, the center line of the connection hole coincides with the center line of the boss sleeve, and the aperture of the connection hole is equal to the aperture of the mounting opening of the boss sleeve;

in a preferred embodiment of the present invention, the internal fixation repair system for intertrochanteric fracture of femur further comprises a second locking screw and a third locking screw, the second locking screw is a cortical bone compression screw, the third locking screw is a short locking screw, and the steel plate main body is fixed on the femoral shaft by the short locking screw and the cortical bone compression screw.

In a preferred embodiment of the present invention, the main body is provided with a second locking hole and a third locking hole, the second locking screw is fitted into the second locking hole, the third locking hole is a compression hole, the third locking screw is fitted into the third locking hole, and the steel plate main body is fixed to the femoral shaft using the short locking screw and the cortical bone compression screw.

In a preferred embodiment of the present invention, the second locking hole is located between the connecting hole and the third locking hole, and the number of the third locking holes is 2 to 3.

In a preferred embodiment of the invention, the bone cement screw comprises a screw body, the screw body comprises a polished rod section and a threaded section, and the bone cement diffusion hole is formed in the threaded section; the bone cement diffusion holes are provided with a plurality of rows of holes, the holes are arranged along the axial direction of the thread section, and each row of holes comprises at least four bone cement diffusion holes.

In a preferred embodiment of the present invention, the head of the nail body is provided with a quincunx notch.

In a preferred embodiment of the present invention, the balloon dilation instrument includes a front end and a rear end, the front end is provided with a telescopic rod, the telescopic rod can penetrate through the central hole and extend into cancellous bone, and the rear end controls the telescopic rod to form a cavity in cancellous bone.

In a preferred embodiment of the present invention, the bone cement injector comprises a handle and a bone cement delivery pipe, wherein the bone cement delivery pipe is detachably connected to the handle, the bone cement delivery pipe is used for penetrating into a central hole of the bone cement screw, and the handle is pushed to enable bone cement to pass through the bone cement delivery pipe and enter the cavity through the bone cement diffusion hole.

According to a preferred embodiment of the invention, the cross section of the protruding sleeve is circular, the extending height of the protruding sleeve on the inner surface of the locking sleeve plate is 10-30 mm, the diameter of the outer wall of the protruding sleeve is 9-12 mm, the wall thickness of the protruding sleeve is 1.5-3 mm, and an included angle of 130 degrees is formed between the protruding sleeve and the main body.

Compared with the prior art, the invention can realize at least one of the following beneficial effects:

a) the invention provides an internal fixation repair system for intertrochanteric fracture, which comprises a bone cement screw, a first locking screw and a locking sleeve plate, wherein a head sleeve is fixed between the intertrochanteric by using the bone cement screw and the first locking screw; the fracture fixation device is characterized in that a cortical bone compression screw and a short locking screw are installed next, and finally the whole steel plate is completely fixed between the tuberosity of the femur, so that the fracture end can be prevented from rotating while the fracture between the tuberosity is fixed, the axial compression and stability of the fracture end are increased, the fracture block is effectively fixed and crushed, the problems of steel plate loosening, fracture block displacement and the like are effectively prevented, the internal fixation is reliable, the structure is simple, and the operation of a doctor is convenient.

b) The internal fixation repair system for intertrochanteric fracture of femur provided by the invention adopts the balloon dilatation device, and the balloon dilatation device and the bone cement screw are used together, so that the filling space of bone cement is increased, and the fixation stability of the bone cement screw is improved.

c) According to the internal fixation repair system for intertrochanteric fracture of femur provided by the invention, bone cement is injected in times after balloon expansion, so that on one hand, cancellous bones around a cavity left after balloon expansion are compacted, and a barrier for preventing bone cement leakage is manufactured artificially; on the other hand, the push rod is used for injecting the bone cement in multiple times, so that the pressure of the bone cement during injection is greatly reduced compared with the continuous injection of the traditional pressure pump, and the leakage of the bone cement is greatly reduced.

d) According to the internal fixation repair system for intertrochanteric fracture, the head of the locking sleeve plate is of an arc structure, the arc curvature is matched with the curvature of the intertrochanteric and can be better attached to the head of the femur, the straight section of the locking sleeve plate is of a concave structure and is in limited contact, the locking sleeve plate can be better and stably fixed on the femoral shaft, excessive stress concentration is reduced, and the internal fixation stability is improved.

Drawings

In order to more clearly illustrate the embodiments of the present specification or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the embodiments of the present specification, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic view of a balloon expansion process of the internal fixation repair system for intertrochanteric fracture of femur of the present invention.

Fig. 2 is a schematic view illustrating a bone cement injection process of the internal fixation repair system for intertrochanteric fracture of femur of the present invention.

Fig. 3 is a first structural diagram of the internal fixation repair system for intertrochanteric fracture of femur of the present invention.

Fig. 4 is a schematic structural diagram of the internal fixation repair system for intertrochanteric fracture of femur of the present invention.

Fig. 5 is a third structural schematic diagram of the internal fixation repair system for intertrochanteric fracture of femur of the present invention.

FIG. 6 is a front view of the locking sleeve plate of the present invention.

FIG. 7 is a side view of the locking sleeve plate of the present invention.

Fig. 8 is a structural view of the bone cement screw according to the present invention.

Reference numerals:

1-femur; 1.1-femoral head; 2-locking the sleeve plate; 2.1-head; 2.2-raised sleeve; 2.3-body; 2.4-first locking hole; 2.5-connecting hole; 2.6-second locking hole; 2.7-a third locking hole; 3-bone cement screws; 3.1-quincunx sink groove; 3.2-connecting end; 3.3-center hole; 3.4-nail body; 3.5-screw body thread; 3.6-bone cement diffusion holes; 3.7-cutting end; 4-balloon dilation instrument; 5-cortical bone compression screws; 6-short locking screw; 7-a first locking screw; 8-a cavity; 9-bone cement; 10-bone cement injector.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

For the purpose of facilitating understanding of the embodiments of the present application, the following description will be made in terms of specific embodiments with reference to the accompanying drawings, which are not intended to limit the embodiments of the present application.

One embodiment of the present invention, as shown in fig. 1-5, discloses an internal fixation repair system for intertrochanteric femoral fractures, comprising:

thelocking sleeve plate 2 comprises a main body 2.3 and a head 2.1 which are integrally arranged, and the head 2.1 is provided with a protruding sleeve 2.2 and a first locking hole 2.4;

thebone cement screw 3 is installed in the protruding sleeve 2.2 in a threaded mode, thebone cement screw 3 comprises a screw body 3.4, a central hole 3.3 penetrates through the screw body 3.4 in the axial direction, an external thread and a bone cement diffusion hole 3.6 are formed in the screw body 3.4, and the bone cement diffusion hole 3.6 is communicated with the central hole 3.3;

aballoon dilatation device 4, theballoon dilatation device 4 forming a cavity 8 inside the femoral head through the central hole 3.3;

abone cement injector 10, wherein thebone cement injector 10 injects thebone cement 9 into the cavity 8 through the central hole 3.3 and the bone cement diffusion hole 3.6;

afirst locking screw 7, saidfirst locking screw 7 being inserted into said cavity 8 through a first locking hole 2.4; the head 2.1 is fixed to the femoral head surface by thefirst locking screw 7, and the front end of thefirst locking screw 7 is located in thebone cement 9 in the cavity 8.

In a preferred embodiment of the present embodiment, thelocking sleeve plate 2 is a unitary structure, thelocking sleeve plate 2 has a protrusion sleeve 2.2, and the head of thelocking sleeve plate 2 is an arc-shaped structure, so as to better fit with the head 1.1 of the femur and keep the stability of thecement screw 3.

Specifically, as shown in fig. 6, the main body 2.3 of thelocking sleeve plate 2 is a straight section, and the straight section 2.3 of thelocking sleeve plate 2 is partially in a concave structure and is arranged in a limited contact type, so that the locking sleeve plate can be better fixed on the femoral shaft and reduce the excessive concentration of stress. The inner surface of the main body 2.3 is arc-shaped, the arc-shaped curvature is matched with the femoral tuberosity curvature, and the main body can be better attached to the surface of a femoral shaft; the head 2.1 of thelocking sleeve plate 2 is a curved section, the inner surface of the head 2.1 can be attached to the surface of the femoral head 1.1 and the femoral shaft transition section, namely, the head 2.1 is a curved section, and the inner surface of the curved section is matched with the curve of the femoral head 1.1 rotor. Specifically, the curved section comprises a first section with a first curvature and a second curvature section with a second curvature, the first section is in transition connection with the straight section, and the second curvature is larger than the first curvature, and the structure arrangement enables thelocking sleeve plate 2 to be better attached to the femoral shaft, and particularly enables the head to be attached to the surface of the femoral head 1.1 and the femoral shaft transition section.

In a preferred embodiment of this embodiment, the protruding sleeve 2.2 is disposed on an inner side surface of the second section, the protruding sleeve 2.2 is provided with an internal thread, a connection hole 2.5 is disposed on an outer side surface of the second section, and the connection hole 2.5 is communicated with the protruding sleeve 2.2; the first locking hole 2.4 is arranged at the first section, and the central line of the first locking hole 2.4 is parallel to the central line of the boss sleeve 2.2.

In a preferred embodiment of this embodiment, the central line of the connection hole 2.5 coincides with the central line of the boss sleeve 2.2, the aperture of the connection hole 2.5 is equal to the aperture of the mounting hole of the boss sleeve 2.2, and the central line of the central hole 3.3 coincides with the central axis of the screw body 3.4 of thebone cement screw 3.

In a preferred embodiment of this embodiment, the internal fixation repair system for intertrochanteric femoral fracture further comprises a second locking screw and a third locking screw, the second locking screw being a corticalbone compression screw 5 and the third locking screw being ashort locking screw 6; the main body 2.3 is provided with a second locking hole 2.6 and a third locking hole 2.7, as shown in fig. 7, the second locking hole 2.6 is located between the connecting hole 2.5 and the third locking hole 2.7, the number of the third locking holes 2.7 is 2-3, the second locking screw is installed in the second locking hole 2.6, the third locking hole 2.7 is a compression hole, the third locking screw is installed in the third locking hole 2.7, and the main body 2.3 is fixed on the femoral shaft by using theshort locking screw 6 and/or the corticalbone compression screw 5.

In a preferred embodiment of this embodiment, as shown in fig. 8, thebone cement screw 3 includes a shank 3.4 and a central hole 3.3 axially penetrating the shank 3.4, the shank 3.4 is provided with threads and bone cement diffusion holes 3.6, the bone cement diffusion holes 3.6 are evenly arranged in four rows at intervals of 90 degrees along the shank 3.4, and the through holes are communicated with the central hole 3.3. Specifically, the nail body 3.4 comprises a polished rod section and a threaded section, and the bone cement diffusion hole 3.6 is arranged in the threaded section; the bone cement diffusion holes 3.6 are provided with a plurality of rows of holes, each row of holes comprises at least four bone cement diffusion holes 3.6 along the axial direction of the thread section, and the aperture of each bone cement diffusion hole 3.6 is

The centre bore 3.3 is used forsacculus expansion instrument 4 andbone cement syringe 10 to pass, andbone cement syringe 10 diffusesbone cement 9 in to cavity 8 through centre bore 3.3 and multirow bone cement diffusion hole 3.6, through setting up multirow bone cement diffusion hole 3.6, can make even the filling of bone cement incavity 9, avoids not filling because of the part and causes the blind area of filling, has improved the steadiness ofbone cement screw 3 andfirst locking screw 7.

In a preferred embodiment of this embodiment, one end of the shank 3.4 of thebone cement screw 3 is a cutting end 3.7, the other end of the shank 3.4 is a connecting end 3.2, the connecting end 3.2 is provided with an external thread, and the thread pattern of the external thread matches with the internal thread of the boss sleeve 2.2. The cutting end is a cutting thread in a thread shape, a thread blade is arranged on the cutting thread, a self-tapping groove is arranged at the front end of the thread blade, and the self-tapping groove has a certain back angle and increases self-tapping performance. The cutting end drives thebone cement screw 3 to be driven into the femoral head rotor, and the other end of the nail body 3.4 is provided with an external thread matched with the inner wall of the bulge sleeve 2.2, so that firm threaded connection can be realized.

In a preferred embodiment of this embodiment, the head of the nail body 3.4 is provided with a quincunx-shaped sinking groove 3.1, the quincunx-shaped sinking groove 3.1 is a T27 quincunx-shaped interface, thebone cement screw 3 is screwed into the interior of the protruding sleeve 2.2 under the action of the external clamping device, and the clamping position of the external clamping device is the quincunx-shaped sinking groove so as to achieve the self-holding effect, thereby facilitating the clamping and self-locking and avoiding the nail body 3.4 from falling off.

In a preferred embodiment of this embodiment, the thickness of the straight section ranges from 5.5 mm to 6mm, and the width ranges from 17.5 mm to 18.5 mm; the cross-section of protruding sleeve 2.2 is ring shape, protruding sleeve 2.2 be in 2 internal surfaces of locking sleeve board extend to 10mm ~ 30mm, the outer wall diameter of protruding sleeve 2.2 is 9 ~ 12mm, the wall thickness of protruding sleeve 2.2 is 1.5mm ~ 3mm, protruding sleeve 2.2 with main part 2.3 is 130 contained angles, and this contained angle is unanimous with thighbone head angle, with the protruding sleeve 2.2 of head screw in ofbone cement screw 3, the axis ofbone cement screw 3 is parallel state with the axis after the locking offirst locking screw 7, can be furthest run through the locking with whole femoral head.

A preferred embodiment of this embodiment,sacculus expansion instrument 4 includes front end and rear end, the front end is equipped with the telescopic link, the telescopic link of 4 front ends of sacculus expansion instrument can followbone cement screw 3 centre bore 3.3 inserts to the femoral head, and the cutting edge thatbone cement screw 3 was worn out to the front end stretches into inside the spongy bone, doctor operation control the rear end ofsacculus expansion instrument 4, the front end is in prop open or shrink under the rear end control, the front end is strutted the back and is taken out cavity 8 at the inside inflation of femoral head, andsacculus expansion instrument 4 withdraws from after propping out cavity 8, andbone cement screw 3 further squeezes into inside the cavity under outer clamping device's effect, and the thread fit of the protruding sleeve 2.2 of the connecting end 3.2 ofbone cement screw 3 head and locking sleeve board 2.2.

In a preferred embodiment of this embodiment, thebone cement injector 10 includes a handle and a bone cement delivery pipe, the bone cement delivery pipe is detachably connected to the handle, the bone cement delivery pipe is used for penetrating into the central hole 3.3 of thebone cement screw 3, the depth of the cancellous bone material input along the central hole 3.3 at the front end of the bone cement delivery pipe is the same as the depth of the bone cement diffusion hole 3.6, and the handle is pushed to make thebone cement 9 enter the cavity 8 through the bone cement delivery pipe via the bone cement diffusion hole 3.6, so as to inject the bone cement in different times. Namely, the interior of the femoral head is expanded by the telescopic rod of the balloon structure and then is injected with bone cement in times, on one hand, cancellous bones around a cavity left after the balloon expansion are compacted, and a barrier for preventing the bone cement from leaking is manufactured artificially; on the other hand, the bone cement is injected by using the push rod of thebone cement injector 10 in a plurality of times, so that the pressure of the bone cement during injection is greatly reduced compared with the continuous injection of the traditional pressure pump, and the leakage of the bone cement is greatly reduced.

In practical application, a doctor needs to match the size of the opening of the femoral head 1.1 with the shape of the outer wall of the protrusion sleeve 2.2, install the protrusion sleeve 2.2 in the inner portion of the femoral head 1.1, make the cutting end 3.7 of the nail body 3.4 of thebone cement screw 3 contact with the position of the femoral head 1.1 to be fixed, and screw into the femoral head 1.1 under the action of a surgical instrument, at this time, the connecting end 3.2 at the other end of thebone cement screw 3 is not screwed into the thread in the protrusion sleeve 2.2, and then pass theballoon expansion instrument 4 through the central hole 3.3 of thebone cement screw 3 to reach the inner portion of the femoral head 1.1, and expand to form a cavity 8 in the femoral head. Withdrawing theballoon dilatation device 4, screwing the connecting end 3.2 of the nail body 3.4 of thebone cement screw 3 into the connecting thread of the convex sleeve 2.2, and locking by using a torque wrench. Thebone cement injector 10 is inserted into the cavity 8 expanded by theballoon expansion device 4 along the central hole 3.3 of thebone cement screw 3, thebone cement 9 is injected, thebone cement 9 can be diffused in the expanded femoral head cavity 8 through the central hole 3.3 and the four rows of bone cement diffusion holes 3.6, thebone cement injector 10 is withdrawn after a certain amount ofbone cement 9 is injected, and finally thebone cement 9 is solidified to play a role in strengthening and fixing. The surgeon then drills a small hole in the area of the fracture of the femoral head 1.1, the size of the small hole corresponding to the base diameter of the screw to be installed, then matches the steel plate head 2.1 of the lockingsleeve plate 2 with the curved line of the trochanter of the femoral head 1.1 and fixes it with along locking screw 7. Ashort locking screw 6 is mounted on the second locking hole 2.6 of the steel plate main body 2.3 by using a surgical instrument, a corticalbone compression screw 5 is mounted on the third locking hole 2.7 of the steel plate main body 2.3 by using a surgical instrument, and finally, ashort locking screw 6 is mounted on the tail locking hole position of the steel plate main body 2.3 by using the surgical instrument. To this end, an internal fixation repair system for intertrochanteric fractures is installed.

Compared with the prior art, the internal fixation repair system for femoral intertrochanteric fracture provided by the embodiment comprises the bone cement screw and the balloon expansion instrument, the balloon expansion instrument and the bone cement screw are used together, the filling space of bone cement is increased, and the stability of fixation of the bone cement screw is improved. The locking sleeve plate is fixed between the femoral tuberosities through a plurality of locking screws and cortical bone compression screws in a fixing mode, and the fixing steps are as follows: fixing a head sleeve between the femoral tuberosities, locking a bone cement screw on a head protruding sleeve after a rotating steel plate main body is well attached to a femoral shaft, locking a first locking screw in a head thread, and placing the tip of the thread into the bone cement; the fracture fixation device is characterized in that a cortical bone compression screw and a short locking screw are installed next, and finally the whole steel plate is completely fixed between the tuberosity of the femur, so that the fracture end can be prevented from rotating while the fracture between the tuberosity is fixed, the axial compression and stability of the fracture end are increased, the fracture block is effectively fixed and crushed, the problems of steel plate loosening, fracture block displacement and the like are effectively prevented, the internal fixation is reliable, the structure is simple, and the operation of a doctor is convenient. In addition, the traditional repair system adopts a lag screw, the purpose of the lag screw is to provide pressure between bone blocks, and at the moment, the lag screw can stably fix a steel plate on a fracture block, so that stable fixation is achieved, but blood circulation of periosteum is influenced, and later recovery is influenced; thefirst screw 7 is a locking screw, so that the angle stability can be provided, a steel plate does not need to be pressed onto the bone surface, the contact area between the steel plate and the bone is reduced, the interference on periosteum blood circulation is reduced while the stability is improved, and the periosteum and the blood circulation are protected.

The above-mentioned embodiments, objects, technical solutions and advantages of the present application are described in further detail, it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present application, and are not intended to limit the scope of the present application, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present application should be included in the scope of the present application.

Claims (10)

1. An internal fixation repair system for intertrochanteric fractures, comprising:

the locking sleeve plate (2) comprises a main body (2.3) and a head (2.1) which are integrally arranged, and the head (2.1) is provided with a protruding sleeve (2.2) and a first locking hole (2.4);

the bone cement screw (3) is installed in the protruding sleeve (2.2) in a threaded mode, the bone cement screw (3) comprises a screw body (3.4), a center hole (3.3) penetrates through the screw body (3.4) along the axial direction, a bone cement diffusion hole (3.6) is formed in the screw body (3.4), and the bone cement diffusion hole (3.6) is communicated with the center hole (3.3);

a balloon dilatation device (4), the balloon dilatation device (4) forming a cavity (8) inside the femoral head through the central hole (3.3);

a bone cement injector (10), said bone cement injector (10) injecting bone cement (9) into said cavity (8) through said central bore (3.3) and said bone cement diffusion bore (3.6);

a first locking screw (7), the first locking screw (7) being inserted into the cavity (8) through a first locking hole (2.4).

2. The internal fixation repair system for femoral intertrochanteric fractures according to claim 1, characterized in that the body (2.3) is straight, the inner surface of the body (2.3) being able to conform to the surface of the femoral shaft.

3. The internal fixation repair system for femoral intertrochanteric fractures according to claim 2, characterized in that the head (2.1) is curved, the inner surface of the head (2.1) being able to conform to the surface of the femoral head 1.1 and femoral shaft transition; the curved section comprises a first section with a first curvature and a second curvature section with a second curvature, the first section is in transition connection with the straight section, and the second curvature is larger than the first curvature.

4. The internal fixation repair system for femoral intertrochanteric fractures according to claim 3, characterized in that the first locking hole (2.4) is provided in the first section;

protruding sleeve (2.2) are located the medial surface of second section, protruding sleeve (2.2) are equipped with the internal thread, the lateral surface of second section is equipped with connecting hole (2.5), connecting hole (2.5) with protruding sleeve (2.2) intercommunication.

5. The internal fixation repair system for femoral intertrochanteric fractures according to claim 4, characterized in that the center line of the connection hole (2.5) coincides with the center line of the boss sleeve (2.2), and the hole diameter of the connection hole (2.5) is equal to the hole diameter of the mounting opening of the boss sleeve (2.2).

6. The internal fixation repair system for femoral intertrochanteric fractures according to claim 1, further comprising a second locking screw and a third locking screw, the second locking screw being a cortical bone compression screw (5), the third locking screw being a short locking screw (6), the steel plate body (2.3) being fixed to the femoral shaft by the short locking screw (6) and the cortical bone compression screw (5).

7. An internal fixation repair system for femoral intertrochanteric fractures according to claim 6, characterized in that the body (2.3) is provided with a second locking hole (2.6) and a third locking hole (2.7), the second locking screw being fitted into the second locking hole (2.6), the third locking hole (2.7) being a compression hole and the third locking screw being fitted into the third locking hole (2.7).

8. The internal fixation repair system for femoral intertrochanteric fractures according to claim 7, characterized in that the second locking hole (2.6) is located between the connection hole (2.5) and the third locking hole (2.7), the number of third locking holes (2.7) being 2-3.

9. The system according to claim 1, wherein the balloon dilation instrument (4) comprises a front end and a rear end, the front end is provided with a telescopic rod, the telescopic rod can penetrate through the central hole (3.3) and extend into cancellous bone, and the rear end controls the telescopic rod to form a cavity (8) in the cancellous bone.

10. The system of claim 1, wherein the cement injector (10) comprises a handle and a cement delivery tube detachably connected to the handle.

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