CN107440776A - A kind of inner fixing device of the new lag screw joint pedicle screw treatment Hangman fracture of the way of escape - Google Patents

Abstract

The invention discloses a kind of inner fixing device of the new lag screw joint pedicle screw treatment Hangman fracture of way of escape, the inner fixing device includes lag screw, two universal nuts of convex surface outer-hexagonal, cobra pitman, pedicle screw and horizontal company, the lag screw is double thread structure end to end, it includes end thread, middle core and tailing screw flight, the form that tailing screw flight is connected through a screw thread is equipped with two single universal nuts of convex surface outer-hexagonal, the convex surface of two single universal nuts of convex surface outer-hexagonal is oppositely arranged, the cobra pitman is housed between them simultaneously, one end of the cobra pitman is provided with bi-concave hole, the other end connects the pedicle screw, the horizontal company is housed on the cobra pitman between pedicle screw and lag screw.The present invention overcome current each art formula fracture of vertebral pedicle can not perfect anatomical reduction or operation the problems such as leaving cervical spine instabily the defects of, it is possible to achieve axis arch root more preferably anatomical reduction.

Description

A kind of new lag screw joint pedicle screw treatment Hangman fracture of the way of escape Inner fixing device

Technical field

The present invention relates to a kind of interior fixed dress of the new lag screw joint pedicle screw treatment Hangman fracture of way of escape Put, belong to technical field of medical instruments.

Background technology

Hangman fractures, and is slipped before also known as traumatic dentata, is obtained with being found, studying with death by hanging criminal first Name, is nowadays common in various traffic accidents, Falling Injury, diving accident and some antagonism injurys gained in sports, as suffered from traffic accident Person brakes suddenly in car, and when forehead rigid collision objects in front or lower jaw are answered back to, cervical vertebra hyperextension, axial load act on dentata The narrow portion of pedicle of vertebral arch, axis arch root receive the stress longitudinally transmitted and are broken, and occur together Cervical cord injuries more, and the death rate is high. According to incompletely statistics, slipped in whole fracture-dislocation of cervical spine, before traumatic dentata and account for 4%~7%.For being survived after wound Hangman fracture patients, due to fracture cause intervertebral unstability or neural compression of spinal cord to compel, current most scholars tend to Operation in early stage, however, preceding road resets C2-3 Intervertebral disc fusions Interal fixation, way of escape C2 pedicle of vertebral arch C3 lateral mass is followed closely in rod admittedly Determine art, Occipital-cervical fusion, way of escape axis arch root screw fix, the pedicle of vertebral arch lag screw minimal invasion ligamentopexis of novel C 2, External NSA technologies are currently used six kinds of art formulas.

Anterior approach cuts off damaged spinal disc with impaired section sequence is directly recovered, and rebuilds segmental stabilization and prevents Only the advantages that long term complication caused by malunion, but the dissection of preceding road is complicated, easy damaged arteria carotis and sublingual god Through mandibular blocks influence operation technique in addition, this to indirect treatment of fracturing, it is impossible to fracture is well resetted, fracture be present Disunion risk.

Way of escape C2 pedicle of vertebral arch C3 lateral mass follow closely rod internal fixation, although formed an internal fixation system, make cervical stability with Balance is improved, but makes the reduction of the fracture very limited, and the once reset of only usual pedicle screw, reset effect is owed It is good.

Occipital-cervical fusion does not have to clinically now substantially, due to upper cervical spine major part loss of activity after its fixation, unless Hangman fracture merges upper cervical spine shakiness or merges complicated upper cervical spine injury, and this operation can not fracture very well to Hangman Reset.

Way of escape axis arch root lag screw technique for fixing is gradually promoted clinical, and this art formula has that wound is small, fracture At once stablize, can farthest retain the advantages of adjacent segment physiological function in position.But way of escape dentata pedicle screw is to fracture Reset response it is limited, may after surgery long term there is Segmental instability, and to cut out rate higher for screw.And for oblique fracture （Fracture line and screw way direction out of plumb）, the pressurization of screw may result in fracture site dislocation, and the displacement of horizontal position makes vertebra Pipe anteroposterior diameter diminishes, and is likely to result in the compressing of spinal cord or even damages.

The newest pedicle of vertebral arch lag screw minimal invasion ligamentopexis of novel C 2, has operating time short, intraoperative hemorrhage is few, postoperative Recover the advantages that fast, but this novel screw makes the reduction of the fracture limited（Second of pressurization can only at most make fracture end close to 2.3mm）, It is poor that obvious fracture effect is separated for displacement, oblique fracture is resetted poor, and this screw individually resets, and does not connect and is System, the stability and balance of cervical vertebra are poor, can not be solved for the compound fracture of joint atlas or C3 fracture.

External nearest new NSA technologies, although foring metastable systems stabilisation, main problem is still It is limited to reduction of the fracture effect, and this technology needs to cut off most of spinous process of axis and supraspinal ligament and interspinal ligaments, destroys Rear complex, makes the less stable of rear pillar, and post-operative recovery is slower, and has the concurrent of postoperative prolonged cervical pain Disease, and can not solve to merge the compound fracture for closing on vertebral fracture.

More than operation exist operating difficulty is larger, easy damaged important blood vessels nerve, fracture can not perfect anatomical reduction, lose The problems such as staying cervical spine instabily, thus for possess it is a set of can make fracture anatomical reduction, and can makes the stability of cervical vertebra after reset And the new internal fixation system for the treatment of Hangman fracture that balance greatly improves is particularly important.

The content of the invention

It is an object of the invention to provide a kind of internal fixing system for cervical posterior approach, specially a kind of new lag screw connection of the way of escape Close the new inner fixing device of pedicle screw, secondary the resets Hangman of nut combined by lag screw and fractured, joint C1 or C3 pedicle screws composition nail rod solid internal fixation system, can overcome current each art formula fracture of vertebral pedicle can not perfect anatomical reduction Or the defects of operation the problems such as leaving cervical spine instabily, it is possible to achieve axis arch root more preferably anatomical reduction, while by drawing The innovative transformation of power screw, greatly reduce the possibility that C2 lag screws pass cortex of bone, and C1, C3 vertebra is being used in combination After pedicle screw and novel glasses snake pitman form nail rod solid internal fixation system, stabilization between cervical vertebral body and balance can be with It is effectively restored and maintains, possesses the originality in scientific research and wide potential applicability in clinical practice.

The present invention adopts the technical scheme that：A kind of new lag screw joint pedicle screw treatment Hangman of the way of escape The inner fixing device of fracture, the inner fixing device include lag screw, the universal nut of the first single convex surface outer-hexagonal, second single convex surface The universal nut of outer-hexagonal, cobra pitman, pedicle screw and horizontal company, the new lag screw are double thread knot end to end Structure, it includes end thread, middle core and tailing screw flight, and the form that the tailing screw flight is connected through a screw thread is single convex equipped with first The universal nut of face outer-hexagonal, second single universal nut of convex surface outer-hexagonal, the universal nut of the first single convex surface outer-hexagonal and second The convex surface of single universal nut of convex surface outer-hexagonal is oppositely arranged, while on the universal nut of the first single convex surface outer-hexagonal and second single convex surface The cobra pitman is housed between the universal nut of outer-hexagonal, one end of the cobra pitman is provided with bi-concave hole, Cobra pitman is sleeved on the afterbody of lag screw and universal with described first single convex surface outer-hexagonal by the bi-concave hole Nut and second single universal nut slidable connection of convex surface outer-hexagonal, the other end of the cobra pitman connect the vertebral arch Root screw, the horizontal company is housed on the cobra pitman between pedicle screw and new lag screw.

As the preferred of this programme, the tailing screw flight of the new lag screw is finer and closely woven than end thread.

As the preferred of this programme, the end thread diameter of the new lag screw is slightly larger than tailing screw flight diameter.

As the preferred of this programme, the tail cap portion of the new lag screw is hexagon.

As the preferred of this programme, the concave curvature radius of the bi-concave hole of the cobra pitman is slightly larger than first The nut convex radius of the universal nut of single convex surface outer-hexagonal and second single universal nut of convex surface outer-hexagonal.

The present invention has the following advantages compared with prior art：

The present invention is upper in shape, construction and its combination, is different from current prior art, is specially:

1st, new lag screw head end screw thread is roomy, and the head end diameter of thread is slightly larger than threads, beneficial to holding sclerotin, middle-end core Diameter is smaller will not to hold sclerotin, and fracture line both ends are pressurizeed when being screwed in beneficial to the universal nut in single convex surface, and tail end is hexagon, is passed through Specific purpose tool is held.

2nd, the universal nut of single convex surface outer-hexagonal, cobra pitman cause for some for the design of a bi-concave hole Oblique fracture（That is the direction out of plumb of fracture line and fixing screws）, can also make universal nut and novel glasses snake pitman concave surface Match.

3rd, the most important point of the present invention：To the secondary reset of fracture site, pressed reduction of fracture can be made unrestricted, make bone Folding obtains perfect anatomical reduction, and equally can be with anatomical reduction for oblique fracture.It is by new pulling force to reset for the first time Screw resets, and it is to enter fracture both ends by the loaded reset to vertebral plate by single convex universal nut of outer-hexagonal that second, which resets, One step is close.

Brief description of the drawings

Fig. 1 is the overall structure diagram of the present invention.

Fig. 2 is new lag screw structural representation.

Fig. 3 is the universal nut of single convex surface outer-hexagonal and cobra pitman side view.

In figure：1- end threads, core in 2-, 3- tailing screw flights, the single universal nuts of convex surface outer-hexagonal of 4- first, 5- second Single universal nut of convex surface outer-hexagonal, 6- tail caps portion, the horizontal companies of 7-, 8- pedicle screw afterbodys, 9- cobra pitmans, 10- vertebral arch Root screw.

Embodiment

The present invention is described in detail with specific embodiment below in conjunction with the accompanying drawings.

As shown in Figure 1 to Figure 3, a kind of new lag screw joint pedicle screw treatment Hangman fracture of way of escape is interior Fixing device, the inner fixing device include new lag screw, the universal nut 4 of the first single convex surface outer-hexagonal, outside second single convex surface The universal nut 5 of hexagonal, cobra pitman 9, pedicle screw 10 and horizontal company 7, the new lag screw are double thread end to end Structure, it includes end thread 1, middle core 2 and tailing screw flight 3, and the form that the tailing screw flight 3 is connected through a screw thread is equipped with the The universal nut 4 of one single convex surface outer-hexagonal, second single universal nut 5 of convex surface outer-hexagonal, first single universal spiral shell of convex surface outer-hexagonal The convex surface of 4 and second single universal nut 5 of convex surface outer-hexagonal of mother is oppositely arranged, while in first single universal nut 4 of convex surface outer-hexagonal And second be equipped with the cobra pitman 9, one end of the cobra pitman 9 between single universal nut 5 of convex surface outer-hexagonal Provided with bi-concave hole, cobra pitman 9 by the bi-concave hole be sleeved on new lag screw afterbody and with it is described First single universal universal slidable connection of nut 5 of single convex surface outer-hexagonal of nut 4 and second of convex surface outer-hexagonal, the cobra connection The other end of rod 9 connects the pedicle screw 10, the cobra connection between pedicle screw 10 and new lag screw The horizontal company 7 is housed on rod 9.

In the present invention, the tailing screw flight 3 of the new lag screw is finer and closely woven than end thread 1.The new lag screw The diameter of end thread 1 be slightly larger than the diameter of tailing screw flight 3.The tail cap portion 6 of the lag screw is hexagon.The cobra connects Take over the baton 9 bi-concave hole concave curvature radius slightly larger than outside first single universal 4 and second single convex surface of nut of convex surface outer-hexagonal The nut convex radius of the universal nut 5 of hexagonal.

The present invention can also be carried out in manipulation under direct-view under three-dimensional navigation auxiliary, led in specific operation application Cross C2 pedicles of vertebral arch and insert new lag screw, insert screw and be inserted in first single universal nut of convex surface outer-hexagonal after afterbody, rotate After nut is tightened up, cobra pitman is inserted in, then is pressed into the universal nut of the second single convex surface outer-hexagonal and tightens, C1 or C3 pedicles of vertebral arch Screw is conventional Pedicle Screw Placement in Lower Cervical, and ordinary operation is inserted, and press-in pitman routinely places horizontal company after tightening up tail cap.

The basic principles, principal features and advantages of the present invention have been shown and described above.One of ordinary skill in the art It should be appreciated that above-described embodiment protection domain that the invention is not limited in any way, all to be obtained using modes such as equivalent substitutions The technical scheme obtained, falls within protection scope of the present invention.

Part that the present invention does not relate to is same as the prior art or can be realized using prior art.

Claims (5)

1. a kind of inner fixing device of the new lag screw joint pedicle screw treatment Hangmang fracture of the way of escape, its feature exist Include new lag screw, first single universal nut of convex surface outer-hexagonal in the inner fixing device（4）, second single convex surface outer-hexagonal ten thousand To nut（5）, cobra pitman（9）, pedicle screw（10）With horizontal company（7）, the lag screw is double thread knot end to end Structure, it includes end thread（1）, middle core（2）And tailing screw flight（3）, the tailing screw flight（3）The form being connected through a screw thread Equipped with first single universal nut of convex surface outer-hexagonal（4）, second single universal nut of convex surface outer-hexagonal（5）, outside first single convex surface The universal nut of hexagonal（4）With second single universal nut of convex surface outer-hexagonal（5）Convex surface be oppositely arranged, while outside first single convex surface The universal nut of hexagonal（4）With second single universal nut of convex surface outer-hexagonal（5）Between the cobra pitman is housed（9）, it is described Cobra pitman（9）One end be provided with bi-concave hole, cobra pitman（9）Pulling force is sleeved on by the bi-concave hole The afterbody of screw and with described first single universal nut of convex surface outer-hexagonal（4）With second single universal nut of convex surface outer-hexagonal（5）Can It is slidably connected, the cobra pitman（9）The other end connect the pedicle screw（10）, in pedicle screw（10）With Cobra pitman between new lag screw（9）It is upper that the horizontal company is housed（7）.

2. the new lag screw joint pedicle screw treatment Hangman fracture of a kind of way of escape according to claim 1 Inner fixing device, it is characterised in that the tailing screw flight of the new lag screw（3）Compare end thread（1）It is fine and closely woven.

3. the new lag screw joint pedicle screw treatment Hangman fracture of a kind of way of escape according to claim 1 Inner fixing device, it is characterised in that the end thread of the lag screw（1）Diameter is slightly larger than tailing screw flight（3）Diameter.

4. the new lag screw joint pedicle screw treatment Hangman fracture of a kind of way of escape according to claim 1 Inner fixing device, it is characterised in that the tail cap portion of the new lag screw（6）For hexagon.

5. the new lag screw joint pedicle screw treatment Hangman fracture of a kind of way of escape according to claim 1 Inner fixing device, it is characterised in that the cobra pitman（9）Bi-concave hole concave curvature radius be slightly larger than first Single universal nut of convex surface outer-hexagonal（4）With second single universal nut of convex surface outer-hexagonal（5）Nut convex radius.