CN111419418A

CN111419418A - Titanium stick curvature protractor in thoracolumbar surgery

Info

Publication number: CN111419418A
Application number: CN202010256235.2A
Authority: CN
Inventors: 李危石; 孙卓然; 姜帅
Original assignee: Peking University Third Hospital Peking University Third Clinical Medical College
Current assignee: Peking University Third Hospital Peking University Third Clinical Medical College
Priority date: 2020-04-02
Filing date: 2020-04-02
Publication date: 2020-07-17
Anticipated expiration: 2040-04-02
Also published as: CN111419418B

Abstract

The invention relates to a titanium rod curvature protractor in thoracolumbar surgery, which comprises a first part, a second part and a scale turntable, wherein the first part comprises a first cross arm and a first vertical arm; the first cross arm is provided with a disc sliding groove extending along the length direction of the first cross arm; an auxiliary chute is arranged on the first vertical arm; the second part comprises a second cross arm and a second vertical arm; the scale turntable is fixed at the end part of the free end of the second cross arm through a disc nut; the disc nut penetrates through the disc sliding groove and fixes the scale turntable at a proper position in the disc sliding groove; a fixed component chute is arranged on the second vertical arm; a titanium bar clamping component is arranged in the auxiliary sliding chute, a titanium bar fixing component is arranged in the fixing component sliding chute, and the titanium bar fixing component can slide along the fixing component sliding chute and can be fixed at a proper position in the fixing component sliding chute; the titanium rod is fixed between the titanium rod clamping assembly and the titanium rod fixing assembly, and the bending angle of the titanium rod is read through the scales on the scale turntable.

Description

Titanium stick curvature protractor in thoracolumbar surgery

Technical Field

The invention relates to the technical field of medical instruments, in particular to a titanium rod curvature protractor in thoracolumbar surgery.

Background

The degree of curvature of Lumbar Lordosis (LL) is closely related to the degenerative disease of lumbar vertebrae and the postoperative quality of life of malformed patients, which has been confirmed in many studies, the appropriate degree of reconstruction of lumbar lordosis has been a research focus in the past, the angle of incidence of the Pelvis (PI) was proposed in 1992 by Duval-Beaup re et al, representing the sagittal configuration of the pelvis, which remained unchanged after adulthood, the angle of incidence of the pelvis PI and the curvature of lumbar lordosis LL have close correlation, the western student Duval-Beaup re proposed a simplified approximate correspondence of LL ═ PI ± 9 ° as a reference for reconstruction of lumbar lordosis in surgery, which has the characteristics of simplicity and effectiveness, and is widely used by both international and international students in lumbar lordosis surgery.

The subject group of the applicant of the application explores the characteristics of the Chinese spine-pelvis sagittal line sequence and the fitting relation of the lumbar lordosis curvature of young Chinese people and middle-aged and old people in the past 6 years, further explores the appropriate range of lumbar degenerative disease and deformed lumbar reconstruction, and provides guidance for reconstructing the lumbar lordosis curvature in the operation.

In the thoracolumbar spine fixation fusion operation, the pre-bent titanium alloy fixing rod is required to be connected with the pedicle screw, and the curvature of the pre-bent titanium alloy fixing rod is the curvature of thoracolumbar spine reconstruction of the postoperative operation section. In the prior art, the pre-bending curvature of the titanium rod in the operation can not be accurately measured, and can only be estimated by visual inspection experience, and whether the pre-bending curvature reaches the range of the expected reconstruction of the operation can only be verified by the measurement result after the operation. Therefore, there is a need in the art for an intraoperative measuring instrument that performs accurate measurements.

Disclosure of Invention

The invention aims to provide a titanium rod curvature protractor in thoracolumbar surgery, and aims to solve the technical problem of how to accurately measure the bending angle of a titanium rod in thoracolumbar surgery.

In order to achieve the purpose, the invention provides a titanium rod curvature protractor in thoracolumbar surgery, which comprises a first part, a second part and a scale turntable, wherein the first part comprises a first cross arm and a first vertical arm, the first cross arm and the first vertical arm are intersected to form an L-shaped first part, a disc sliding groove extending along the length direction of the first cross arm is arranged on the first cross arm, an auxiliary sliding groove extending along the length direction of the first vertical arm is arranged on the first vertical arm, the second part comprises a second cross arm and a second vertical arm, the second cross arm and the second vertical arm are intersected to form an L-shaped second part, the scale turntable is fixed at the free end of the second cross arm through a disc nut, the disc nut penetrates through the disc sliding groove and fixes the scale turntable at a proper position in the disc sliding groove, a fixing assembly sliding groove extending along the length direction of the second vertical arm is arranged on the second vertical arm, a titanium rod clamping assembly is arranged in the auxiliary sliding groove, the titanium rod clamping assembly can slide along the auxiliary sliding groove and fix the titanium rod at a proper position in the titanium rod clamping assembly, and the titanium rod clamping assembly can be fixed in the titanium rod sliding groove, and the titanium rod clamping assembly can be fixed at a proper position in the titanium rod clamping assembly, and the titanium rod fixing assembly can be fixed in the titanium rod clamping assembly, and.

The bending angle of the titanium rod read out through the scales on the scale turntable is as follows: when the position of the disc nut in the disc chute, the position of the titanium bar clamping component in the auxiliary chute and the position of the titanium bar fixing component in the fixing component chute are fixed, the scale on the scale turntable corresponding to the disc chute is the bending angle of the titanium bar.

The position of the scale turntable in the disc chute is adjusted by the disc nut according to the length of the titanium rod.

The titanium bar clamping component comprises a titanium bar clamping groove, a clamping screw hole and a clamping groove fixing nut, wherein the clamping screw hole is formed in the bottom of the titanium bar clamping component; the clamping groove fixing nut penetrates through the auxiliary sliding groove and is screwed into the clamping screw hole, so that the titanium bar clamping assembly is fixed on the auxiliary sliding groove.

The width of the titanium bar clamping groove is 7 mm.

The diameter of the nut of the clamping groove fixing nut is larger than the width of the auxiliary sliding groove.

The titanium bar fixing component comprises a titanium bar fixing groove, a titanium bar fixing nut and a component fixing nut, wherein a titanium bar fixing screw hole is formed in the top of the titanium bar fixing groove, a component fixing screw hole is formed in the bottom of the titanium bar fixing groove, the titanium bar fixing nut is screwed into the titanium bar fixing screw hole, and the depth of the titanium bar fixing nut screwed into the titanium bar fixing screw hole is determined according to the diameter of a titanium bar.

The component fixing nut penetrates through the fixing component sliding groove and is screwed into the component fixing screw hole, and therefore the titanium rod fixing component is fixed on the fixing component sliding groove.

The width of the titanium bar fixing groove is 7mm, and the titanium bar fixing groove can be suitable for titanium bars with all widths on the market.

Preferably, the position of the titanium bar clamping assembly in the auxiliary sliding groove and the position of the titanium bar fixing assembly in the fixing assembly sliding groove are adjusted according to the length of the titanium bar.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: the titanium rod curvature protractor in the thoracolumbar surgery is designed according to a clinically general Cobb angle measuring method, can be adjusted according to the actual diameter and length of the titanium rod in the surgery, is simple in device, and can be conveniently used in the surgery.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic structural diagram of the titanium rod curvature protractor of the present invention.

Fig. 2 is a schematic structural view of the left side member of the present invention.

Fig. 3 is a schematic structural view of the left fixing member of the present invention.

Fig. 4 is a schematic view of the structure of the right side member of the present invention.

Fig. 5 is a schematic structural view of the right fixing member of the present invention.

FIG. 6 is a schematic structural view of a protractor according to the present invention, wherein the bending angle of the titanium rod is 10 degrees.

Fig. 7 is a schematic structural diagram of a protractor with a bending angle of 20 degrees of a titanium rod according to the invention.

Detailed Description

The present invention is described in more detail below to facilitate an understanding of the present invention.

As shown in figures 1 to 7, the titanium rod curvature protractor in thoracolumbar surgery comprises a first component 1 (a left component), a second component 2 (a right component) and a scale rotary table 3, wherein the first component comprises a first cross arm 11 and a first vertical arm 12, the first cross arm 11 and the first vertical arm 12 are intersected to form an L-shaped first component, a disk sliding groove 14 extending along the length direction of the first cross arm is formed in the first cross arm, an auxiliary sliding groove 13 extending along the length direction of the first vertical arm is formed in the first vertical arm, the second component comprises a second cross arm 21 and a second vertical arm 22, the second cross arm 21 and the second vertical arm 22 are intersected to form a L-shaped second component, the scale rotary table is fixed to the free end portion of the second cross arm 21 through a disk nut 24, the disk nut 24 penetrates through the disk sliding groove 14 and fixes the scale at a proper position in a disk sliding groove, a scale assembly representing an angle is arranged on the surface of the scale rotary table, a scale assembly 22 fixed at a proper position along the titanium rod fixing sliding groove 23, and a titanium rod fixing assembly capable of fixing the titanium rod is fixed in the titanium rod sliding groove 4 and a proper clamping connection assembly (the titanium rod fixing assembly 5 is arranged in the titanium rod fixing sliding groove 4 and the titanium rod fixing assembly capable of being fixed in the titanium rod fixing assembly and fixed in the titanium rod fixing assembly in the titanium rod fixing sliding groove 5 clamping connection direction).

The bending angle of the titanium rod read out through the scales on the scale turntable is as follows: when the position of the disc nut 24 in the disc sliding groove 14, the position of the titanium rod clamping component 4 in the auxiliary sliding groove 13 and the position of the titanium rod fixing component 5 in the fixing component sliding groove 23 are fixed, the scale on the scale turntable corresponding to the disc sliding groove 14 is the bending angle of the titanium rod.

As shown in fig. 3, the titanium bar clamping component 4 includes a titanium bar clamping groove 41, a clamping screw hole 42 arranged at the bottom of the titanium bar clamping component, and a clamping groove fixing nut 43; the clamping groove fixing nut penetrates through the auxiliary sliding groove 13 and is screwed into the clamping screw hole 42, so that the titanium bar clamping component 4 is fixed on the auxiliary sliding groove 13.

The width of the titanium bar clamping groove is 7 mm.

The diameter of the nut of the slot fixing nut 43 is larger than the width of the auxiliary chute 13.

As shown in fig. 5, the titanium rod fixing component 5 includes a titanium rod fixing groove 51, a titanium rod fixing nut 54 and a component fixing nut 55, the top of the titanium rod fixing groove is provided with a titanium rod fixing screw hole 52, the bottom of the titanium rod fixing groove is provided with a component fixing screw hole 53, the titanium rod fixing nut 54 is screwed into the titanium rod fixing screw hole 52, and the depth of screwing the titanium rod fixing nut 54 into the titanium rod fixing screw hole 52 is determined according to the diameter of the titanium rod.

The component fixing nut 55 passes through the fixing component slide groove 23 and is screwed into the component fixing screw hole 53, thereby fixing the titanium rod fixing component 5 to the fixing component slide groove 23.

Preferably, the position of the titanium bar clamping assembly 4 in the auxiliary sliding groove 13 and the position of the titanium bar fixing assembly 5 in the fixing assembly sliding groove 23 are adjusted according to the length of the titanium bar.

In the titanium rod curvature protractor in thoracolumbar surgery, the assembly fixing nut 55 is used for fixing the titanium rod fixing assembly 5 to the fixing assembly sliding groove 23, and the position of the titanium rod fixing assembly 5 in the fixing assembly sliding groove 23 can be adjusted in a loosening manner.

When the device is used, one end of a titanium rod to be measured is inserted into the titanium rod fixing groove 51, the depth of screwing the titanium rod fixing nut 54 into the titanium rod fixing screw hole 52 is determined according to the diameter of the titanium rod, and if the diameter of the titanium rod is large, the depth of screwing the titanium rod fixing nut 54 into the titanium rod fixing screw hole 52 is shallow; if the diameter of the titanium rod is small, the depth to which the titanium rod fixing nut 54 is screwed into the titanium rod fixing screw hole 52 is deep. The component fixing nut 55 passes through the fixing component slide groove 23 and is screwed into the component fixing screw hole 53, thereby fixing the titanium rod fixing component 5 to the fixing component slide groove 23. The other end of the titanium rod is inserted into the titanium rod clamping groove 41, the clamping groove fixing nut 43 is loosened, and the position of the titanium rod clamping component 4 on the auxiliary sliding groove 13 is adjusted. At this moment disc nut 24 keeps not hard up for disc nut 24 and scale carousel 3 can slide along disc spout 14, and draw-in groove fixation nut 43 also keeps not hard up simultaneously, and titanium stick joint subassembly 4 can slide along supplementary spout 13, and titanium stick joint subassembly 4 and scale carousel 3 slide simultaneously and adjust, and scale carousel 3 when sliding to suitable position, titanium stick joint subassembly 4, the position of first part 1 and second part 2 remain stable, tighten draw-in groove fixation nut 43 and disc nut 24 this moment, and the scale on the scale carousel that disc spout 14 is right is the bending angle of titanium stick promptly.

The foregoing describes preferred embodiments of the present invention, but is not intended to limit the invention thereto. Modifications and variations of the embodiments disclosed herein may be made by those skilled in the art without departing from the scope and spirit of the invention.

Claims

1. The titanium rod curvature protractor in thoracolumbar surgery is characterized by comprising a first component, a second component and a scale turntable, wherein the first component comprises a first cross arm and a first vertical arm, the first cross arm and the first vertical arm are intersected and form an L-shaped first component, a disc sliding groove extending along the length direction of the first cross arm is formed in the first cross arm, an auxiliary sliding groove extending along the length direction of the first vertical arm is formed in the first vertical arm, the second component comprises a second cross arm and a second vertical arm, the second cross arm and the second vertical arm are intersected and form a L-shaped second component, the scale turntable is fixed to the free end portion of the second cross arm through a disc nut, the disc nut penetrates through the disc sliding groove and fixes the scale turntable at a proper position in the disc sliding groove, a fixing component extending along the length direction of the second vertical arm is arranged on the second vertical arm, a titanium rod component is arranged in the auxiliary sliding groove, the titanium rod component is clamped and fixed in a proper position in the titanium rod sliding groove, the titanium rod component can be fixed in a proper sliding groove in a sliding manner, and the titanium rod component can be fixed in a proper sliding manner, and the titanium rod fixing component can be clamped and fixed in a proper position in the titanium rod sliding groove, and the titanium rod fixing component can be fixed in a proper angle.

2. The titanium rod curvature protractor in thoracolumbar surgery according to claim 1, wherein the reading of the bending angle of the titanium rod through the scale on the scale dial is specifically: when the position of the disc nut in the disc chute, the position of the titanium bar clamping component in the auxiliary chute and the position of the titanium bar fixing component in the fixing component chute are fixed, the scale on the scale turntable corresponding to the disc chute is the bending angle of the titanium bar.

3. The titanium rod curvature protractor in thoracolumbar surgery as recited in claim 1, wherein the disc nut adjusts the position of the scale dial in the disc chute according to the length of the titanium rod.

4. The titanium rod curvature protractor in thoracolumbar surgery according to claim 1, wherein the titanium rod clamping assembly comprises a titanium rod clamping groove, a clamping screw hole and a clamping groove fixing nut, wherein the clamping screw hole is formed in the bottom of the titanium rod clamping assembly; the clamping groove fixing nut penetrates through the auxiliary sliding groove and is screwed into the clamping screw hole, so that the titanium bar clamping assembly is fixed on the auxiliary sliding groove.

5. The titanium rod curvature protractor in thoracolumbar surgery of claim 4, wherein the width of the titanium rod clamping groove is 7 mm.

6. The titanium rod curvature protractor in thoracolumbar surgery of claim 4, wherein the diameter of the nut of the slot fixing nut is larger than the width of the auxiliary chute.

7. The titanium rod curvature protractor in thoracolumbar surgery according to claim 1, wherein the titanium rod fixing assembly comprises a titanium rod fixing groove, a titanium rod fixing nut and an assembly fixing nut, a titanium rod fixing screw hole is formed in the top of the titanium rod fixing groove, an assembly fixing screw hole is formed in the bottom of the titanium rod fixing groove, the titanium rod fixing nut is screwed into the titanium rod fixing screw hole, and the depth of the titanium rod fixing nut screwed into the titanium rod fixing screw hole is determined according to the diameter of the titanium rod.

8. The titanium rod curvature protractor of thoracolumbar surgery as recited in claim 7, wherein the assembly fixing nut is passed through the fixing assembly sliding groove and screwed into the assembly fixing screw hole, thereby fixing the titanium rod fixing assembly on the fixing assembly sliding groove.

9. The titanium rod curvature protractor in thoracolumbar surgery of claim 7, wherein the width of the titanium rod fixing groove is 7 mm.

10. The titanium rod curvature protractor in thoracolumbar surgery as recited in any one of claims 1-9, wherein the position of the titanium rod clamping assembly in the auxiliary sliding groove and the position of the titanium rod fixing assembly in the fixing assembly sliding groove are adjusted according to the length of the titanium rod.