CN202386776U - Adjustable percutaneous bone joint set screw three-dimensional guider - Google Patents

Abstract

The utility model provides an adjustable percutaneous bone joint set screw three-dimensional guider which comprises a first arc-shaped rack, a second arc-shaped rack, a first linear rack and a second linear rack, wherein the first arc-shaped rack and the second linear rack are positioned in the same plane; the second arc-shaped rack and the first linear rack are connected, are positioned in the same plane and are vertical to each other; the first arc-shaped rack and the second arc-shaped rack have equal curvature radiuses and coincident centers; a first connector is arranged between the first arc-shaped rack and the second arc-shaped rack and is rotatably connected with the first arc-shaped rack and the second arc-shaped rack; the first arc-shaped rack and the second arc-shaped rack are respectively meshed with a first gear and a second gear on the first connector; a second connector is arranged between the first linear rack and the second linear rack and is slidably connected with the first linear rack and the second linear rack; the first linear rack and the second linear rack are meshed with a third gear and a fourth gear on the second connector; the first arc-shaped rack is connected with a pilot sleeve, and the axis of the pilot sleeve passes through a point O; the second linear rack is connected with a locating sleeve, and the axis of the second linear rack is vertical to that of the locating sleeve; and the pilot sleeve and the locating sleeve are coplaner with the first arc-shaped rack and the second linear rack.

Description

Adjustable percutaneous osteoarthrosis is put the three-dimensional guider of nail

Technical field:

This utility model is a kind of operating theater instruments, relates to bone surgery set, relates in particular to adjustable percutaneous osteoarthrosis and puts the three-dimensional guider of nail.

Background technology:

Using Kirschner wire in the bone surgery and fix, or use Kirschner wire guiding screw and fix, is very general.The guider guiding Kirschner wire that open operation uses is of all kinds, and accuracy is higher; And closure also has report through the guider of skin medullo-puncture needle, but accuracy is not high, is not promoted widely.In the epoch of current surgery operating technology develop rapidly, approved more and more widely and enjoyed through skin Minimally Invasive Surgery mode and widelyd popularize.Put Pinning through skin and be meant that incision of skin is about 5-10mm, under the sleeve protection, puncture reaches surface of bone, pierces osseous pin, perhaps inserts hollow screw along osseous pin.For example: fracture of femoral neck closed reduction hollow screw internal fixation, the sacroiliac joint screw is fixed, and supracondylar fracture of the humerus closed reduction internal fixation additionally in the extremity fracture intramedullary pin fixation stops inserting of nail, or the like.How can accurately penetrate guid needle by percutaneous, still very difficult; Great majority need pierce repeatedly, till position suitable, even just can reach satisfied position after the also unavoidable repeated multiple times of veteran doctor, so not only the operating time long, patient receives roentgen radiation x often, and osteoclastic quality, make fix insecure.Method is the appliance computer airmanship comparatively accurately at present, but this equipment price is expensive, and technology is difficult to grasp, and can not generally promote.So be badly in need of that some are good and cheap, easy and simple to handle, accuracy is high, the simple and easy guider that is easy to promote.Illustrate:

Example 1. fracture of femoral neck are clinical common classification of fracture, and it also is to be called as " unsolved fracture " at present.Can occur in any age, artificially many with old age.Fracture is divided into fracture without displacement and shift-type fracture, and the method for treatment is known as at present: no matter patient below 60 years old is not have displacement or shift-type fracture, all adopts the internal fixation that resets; Fracture more than 80 years old adopts joint replacement; And 60-80 year with interior patient, there is arguement in treatment, generally believes at present: fracture without displacement adopts the internal fixation that resets, the shift-type fracture adopts joint replacement.

The internal fixation that resets is divided into open reduction and closed reduction; Cut internal fixation and percutaneous internal fixation, so " closed reduction+percutaneous internal fixation " is the art formula that present Wicresoft the most, specification requirement are high, should generally promote.Closed reduction overwhelming majority patient can accomplish all that on extension table the minority comminuted fracture needs open reduction.And the percutaneous internal fixation: be to put Pinning through skin to be meant that incision of skin is about 5-8mm, under the sleeve protection, puncture reaches surface of bone, pierces osseous pin, perhaps inserts hollow screw along osseous pin.Only down auxiliary at present at computer and CT, utilize accurately location of navigation, and domesticly have only only a few hospital to possess the equipment that this price reaches 4,000,000 yuan.The fixation that resets for fracture of femoral neck; The curative effect of generally acknowledging at present is preferably through three pieces of hollow forcing screws of skin fixes; Three pieces of screws be distributed in neck of femur the middle and lower part, be del and be parallel to each other, three pieces of screws launch as far as possible, are close to the inboard cortical bone of neck of femur.Being fixed with like this is beneficial to the displacement again that has increased the stability after the reduction of the fracture, reduced fracture, promotes knitting, reduces disunion and ischemic necrosis of femoral head.Existing clinical great majority are row open reduction internal fixations, need to cut the muscular fascia tissue to appear bore position; In the operation for the nail of putting of accurate success; Often need hole repeatedly, have an X-rayed; Just can reach suitable position; Too much boring has destroyed the blood supply in the neck of femur, and causes bone loss, has reduced the fastness of fracture fixation, also has been one of iatrogenic factors of causing nonunion and femur head necrosis; Too much roentgen radiation x all brings injury for patient and doctor.Reach the disposable nail of accurately putting, have only at present through computer navigation is auxiliary and can reach, domestic have only only a few hospital to be equipped with, and can't popularize.Will quick and precisely put nail, cutting and putting nail has been difficult, and it is then more difficult that closure is put nail.Many simple closed guiders are also arranged at present both at home and abroad, and clinical effectiveness is not good enough.

Example 2. because rumpbone can hold the regional little of screw, has tissues such as important nerve, blood vessel for through skin sacroiliac joint dislocation screw fixation on every side; More require to insert the accuracy of screw, often need under navigation or CT, operate, free-hand operation is difficulty comparatively; If a fixable guider is arranged; Can increase the accuracy of operation, shorten operating time, reduce the roentgen radiation x number of times.

The utility model content:

The purpose of this utility model is to provide a kind of adjustable percutaneous osteoarthrosis simple in structure to put the three-dimensional guider of nail; Osseous pin is pierced through skin quickly and accurately; Reduce the wound of operation to greatest extent to the patient; Reduce the roentgen radiation x number of times, reduce destruction osseous tissue, and shortening operation back rehabilitation duration.

This utility model adopts following technical scheme:

A kind of adjustable percutaneous osteoarthrosis is put the three-dimensional guider of nail; Comprise: first arc-shaped rack, second arc-shaped rack, the first linear tooth bar and the second linear tooth bar; Said first arc-shaped rack and the second linear tooth bar are positioned at same plane, and said second arc-shaped rack is connected with the first linear tooth bar and is positioned at same plane, and; It is perpendicular that first arc-shaped rack, the second linear tooth bar belong to the plane and second arc-shaped rack, the first linear tooth bar belongs to the plane; Said first arc-shaped rack equates with the radius of curvature of second arc-shaped rack, and the center of curvature of first arc-shaped rack and second arc-shaped rack coincides with same point O

Between first arc-shaped rack and second arc-shaped rack, be provided with first adapter, and first arc-shaped rack is connected with the first adapter rotational slide, second arc-shaped rack is connected with the first adapter rotational slide; First arc-shaped rack be located at first gears engaged on first adapter, when rotating first gear, first arc-shaped rack and first adapter rotate relatively; Second arc-shaped rack be located at second gears engaged on first adapter, when rotating second gear, second arc-shaped rack and first adapter rotate relatively,

Between the first linear tooth bar and the second linear tooth bar, be provided with second adapter, and first arc-shaped rack and second adapter be slidingly connected, the second linear tooth bar and second adapter are slidingly connected; The first linear tooth bar be located at the 3rd gears engaged on second adapter, when rotating the 3rd gear, the first linear tooth bar and the second adapter relative translation; The second linear tooth bar be located at the 4th gears engaged on second adapter, when rotating the 4th gear, the 4th gear and the second adapter relative translation,

End at first arc-shaped rack is connected with the arc curvature center of the axis of pilot sleeve and pilot sleeve through first arc-shaped rack; The axis that is connected with abutment sleeve and the second linear tooth bar and abutment sleeve at an end of the second linear tooth bar is perpendicular

Said pilot sleeve and abutment sleeve are positioned at the plane at said first arc-shaped rack and second linear tooth bar place.

Compared with prior art, the utlity model has following advantage:

1. cutting fixing incision skin, iliotibial tract, muscle and the periosteum of needing reaches about 60mm; And the percutaneous internal fixation, skin incision and iliotibial tract are 3 osculums (about 8mm), and muscle and periosteum need not cut, and all operations is accomplished in sleeve, and operating sleeve has the effect of hemostasis by compression to muscle.Obviously reduce tissue injury, hemorrhage, operating time.

2. reduce the partial cicatrization of postoperative, postoperative pain is light, the postoperative oozing of blood is few.

3. at the descending percutaneous internal fixation of the guiding that does not have guider; Operative doctor often pierces in the neck of femur with osseous pin by rule of thumb, seeks suitable position, even the doctor who knows a thing or two also needs average 5-10 time boring repeatedly; Just can find suitable position, inexperienced doctor is then more.Boring has damaged the sclerotin in the femoral head repeatedly, has reduced postoperative femoral head anti-pressure ability, has delayed bone healing time, has increased roentgen radiation x number of times and metering.This guider can reduce number of drills to greatest extent.

4. accurately put nail in the neck of femur, make three pieces of screw distribution optimum positions, can bear a heavy burden down ahead of time so that patient's postoperative fracture reaches the most stable.

5. this guider is operated under sleeve, making on surface of bone cylindraceous boring become simple, need not on the inclined-plane of bone with arcwall face on when holing, boring is skidded and worried.

6. use operation under this guider, the complicated nail process of putting becomes simply, makes that inexperienced doctor is easy to grasp.

This utility model provides a kind of adjustable percutaneous osteoarthrosis to put the operation of the three-dimensional guider of nail: behind fracture, the dislocation closed reduction, pierce one piece of osseous pin by conventional percutaneous and fix, after the X line perspective of positive side position, if occupy a good place, then need not use this guider.If this osseous pin fixed position is not good enough, be reference with this osseous pin, on the image of X line perspective, draw correct inserting needle figure, calculate the numerical value such as distance, angle, the degree of depth of correct entry point and this pin respectively.According to the three-dimensional guider of the outer adjusting of data volume, three-dimensional guider is inserted in that piece osseous pin that has pierced fixes, pierce correct osseous pin through the sleeve on the three-dimensional guider, regulate three-dimensional guider then and pierce other osseous pin.

Utility model people uses this adjustablely to put nail three-dimensional guider capable fracture of femoral neck closed reduction through the skin osteoarthrosis, example surplus the percutaneous internal fixation 30, and all by implanted femur cervical region position exactly, one-time success rate reaches 95% to forcing screw.Need not cut affected part, peel off the muscular fascia tissue to appear bore position; Do not need to hole repeatedly, have an X-rayed, reach and quick and precisely put nail.Also be applied to fixing 4 examples of sacroiliac joint screw, additionally in the extremity fracture intramedullary pin fixation stop inserting of nail.

This utility model is easy three-dimensional regulation guider, and is simple in structure, light and can to satisfy the location of operation accurate, and range error is in 1mm, and angular error can satisfy the operation demand fully in 1 degree.

Description of drawings:

Fig. 1 is the front view of this utility model.

Fig. 2 is the vertical view of this utility model.

Fig. 3 is the local A amplification view of this utility model.

Fig. 4 is a normotopia X line perspective diagram, and among the figure, e is a Kirschner wire, and f is actual inserting needle line.

Fig. 5 is a side position X line perspective diagram, and among the figure, e is a Kirschner wire, and f is actual inserting needle line.

The specific embodiment:

A kind of adjustable percutaneous osteoarthrosis is put the three-dimensional guider of nail; Comprise: first arc-shaped rack 1, second arc-shaped rack 3, the first linear tooth bar 4 and the second linear tooth bar 5; Said first arc-shaped rack 1 and the second linear tooth bar 5 are positioned at same plane; Said second arc-shaped rack 3 is connected with the first linear tooth bar 4 and is positioned at same plane; And first arc-shaped rack 1, the second linear tooth bar plane, 5 place and second arc-shaped rack 3, plane, the first linear tooth bar, 4 place are perpendicular, and said first arc-shaped rack 1 equates with the radius of curvature of second arc-shaped rack 3; And the center of curvature of first arc-shaped rack 1 and second arc-shaped rack 3 coincides with same point O

Between first arc-shaped rack 1 and second arc-shaped rack 3, be provided with first adapter 11, and first arc-shaped rack 1 is connected with 11 rotational slides of first adapter, second arc-shaped rack 3 is connected with 11 rotational slides of first adapter; First arc-shaped rack 1 and first gear, 7 engagements that are located on first adapter 11, when rotating first gear 7, first arc-shaped rack 1 and first adapter 11 rotate relatively; Second arc-shaped rack 3 and second gear, 8 engagements that are located on first adapter 11, when rotating second gear 8, second arc-shaped rack 2 and first adapter 11 rotate relatively,

Between the first linear tooth bar 4 and the second linear tooth bar 5, be provided with second adapter 12, and first arc-shaped rack 1 and second adapter 12 be slidingly connected, the second linear tooth bar 5 and second adapter 12 are slidingly connected; The first linear tooth bar 4 and the 3rd gear 9 engagements that are located on second adapter 12, when rotating the 3rd gear 9, the first linear tooth bar 4 and 12 relative translations of second adapter; The second linear tooth bar 5 and the 4th gear 10 engagements that are located on second adapter 12, when rotating the 4th gear 10, the 4th gear 10 and 12 relative translations of second adapter,

End at first arc-shaped rack 1 is connected with the arc curvature center of the axis of pilot sleeve 2 and pilot sleeve 2 through first arc-shaped rack 1; Be connected with abutment sleeve 6 and the second linear tooth bar 5 is perpendicular with the axis of abutment sleeve 6 at an end of the second linear tooth bar 5

Said pilot sleeve 2 and abutment sleeve 6 are positioned at the plane at said first arc-shaped rack 1 and the second linear tooth bar, 5 places.

In the present embodiment,

On first arc-shaped rack 1, second arc-shaped rack 3, the first linear tooth bar 4 and the second linear tooth bar 5, be respectively equipped with the first angle scale scale graticule, the second angle scale scale graticule, the first ruler scale graticule and the second ruler scale graticule; On first adapter 11, be provided with the first angle scale scale graticule observation window and the second angle scale scale graticule observation window, on second adapter 12, be provided with the first ruler scale graticule observation window and the second ruler scale graticule observation window.

Any straight line shape tooth bar in the first linear tooth bar 4 and the second linear tooth bar 5 and orthogonal first arc-shaped rack 1, plane, the second linear tooth bar, 5 place and second arc-shaped rack 3, the planar intersection in the first linear tooth bar, 4 places are parallel, and it is vertical that any another linear tooth bar in the first linear tooth bar 4 and the second linear tooth bar 5 and orthogonal first arc-shaped rack 1, plane, the second linear tooth bar, 5 place and second arc-shaped rack 3, the first linear tooth bar 4 belong to planar intersection.

Counterdie is made more detailed explanation with reference to accompanying drawing to the specific embodiment of this utility model:

First arc-shaped rack 1 is to be its perimeter in the center of circle with O, and outer camber line edge is a gear, and scale is the number of degrees, and starting point is at the center of pilot sleeve 2, and pilot sleeve 2 is positioned on the radius, and the extended line of pilot sleeve 2 is through center of circle O point.First arc-shaped rack 1 is positioned on the same plane with pilot sleeve 2.

Second arc-shaped rack 3 and the first linear tooth bar 4 are positioned on the same plane, and second arc-shaped rack 3 also is to be its perimeter in the center of circle with O, and interior camber line edge is a gear, and scale is length (mm), and starting point is extended to both sides in central authorities; The first linear tooth bar 4 is straight shape internal gear bar, and scale is length (mm), and starting point is extended to both sides in central authorities; Second arc-shaped rack 3 and the first linear tooth bar 4 are connected to a complete body.

5 is the second linear tooth bar, and scale is length (mm), and starting point is extended to a side in the central authorities of abutment sleeve 6; The second linear tooth bar 5 is positioned on the same plane with abutment sleeve 6, at right angles connects.

7 is first gear, and 8 is second gear, and first gear 7 and 8 is that disjunctor and both centres of gyration are vertical, and 9 is that the 3rd gear and 10 is the 4th gear, and the 3rd gear 9 is that disjunctor and both centres of gyration are vertical with the 4th gear 10.

First arc-shaped rack 1 is vertical with the plane that the first linear tooth bar 4 constitutes with second arc-shaped rack 3 with the plane that pilot sleeve 2 constitutes; The plane that second arc-shaped rack 3 and the first linear tooth bar 4 constitute is vertical with the plane that abutment sleeve 6 constitutes with the second linear tooth bar 5, makes the plane parallel of plane that win arc-shaped rack 1 and pilot sleeve 2 constitute and the second linear tooth bar 5 and abutment sleeve 6 formations or is same plane.

It is the circumferential section in the center of circle that the radian of first arc-shaped rack 1 and second arc-shaped rack 3 is with the O point, and radius does not wait, and the plane that is positioned at is orthogonal, that is to say that being is the centre of sphere with the O point, the sub-fraction on the sphere of different radii.The O point is positioned at the dead ahead of 0 in the first linear tooth bar, 4 central authorities all the time.When regulating first gear 7 and second gear 8 arbitrarily, the extended line at pilot sleeve 2 centers is always through centre of sphere O point.Regulate the 4th gear 10 and the 3rd gear 9 sprockets, some O moves with vertical position direction in level.

Example one: fracture of femoral neck closed reduction internal fixation

1. patient is placed on the orthopedic traction bed the auxiliary descending fracture of femoral neck closed reduction of X line perspective.

2. reset after the success, suffering from the outer about 2cm of the side-lower place of limb femoral greater trochanter, level, the vertical femoral shaft of trying one's best pierce one piece of diameter 3mm Kirschner wire, and the degree of depth of entering bone is 2cm.

3. neck of femur normotopia perspective is at the actual inserting needle line that marks on the perspective screen below the neck of femur, at Kirschner wire and cortical bone outer rim intersection point A place; Make vertical line and actual inserting needle line intersects at the B point to this point; Measuring the AB distance is D, on screen, measures the length X that gets into the long Kirschner wire of 20mm in the sclerotin, and X/20 is the normotopia amplification coefficient after the perspective; Measure the angle [alpha] of Kirschner wire and actual inserting needle line, practical level displacement D '=D*X/20mm.

4. neck of femur side position perspective marks the actual inserting needle line at neck of femur center, at Kirschner wire and cortical bone outer rim intersection point a place on perspective screen; Make vertical line and actual inserting needle line intersects at the b point to this point; Measuring the ab distance is d, on screen, measures the length Y that gets into the long Kirschner wire of 20mm in the sclerotin, and Y/20 is the side position amplification coefficient after the perspective; Measure the angle beta of Kirschner wire and actual inserting needle line, practical level displacement d '=d*Y/20mm.

5. according to the numerical value of measuring, regulate level numerical value earlier: rotate the 4th gear 10,, rotate first gear 7, make the arc-shaped rack 1 rotation alpha angle of winning with the second linear tooth bar, 5 horizontal displacement D '; The vertical bit value of re-adjustment: rotate the 3rd gear 9,, rotate second gear 8, make second arc-shaped rack 3 rotate the β angles with the first linear tooth bar, 4 horizontal displacement d '; Note above-below direction this moment.

6. be inserted in 6 of three-dimensional guider, let the C point be close to cortical bone, keep first arc-shaped rack 1 and second arc-shaped rack 2 to be positioned on the horizontal plane.In pilot sleeve 2, insert drill holder, skin is cut an osculum, drill holder is arrived at cortical bone, positive side position perspective is confirmed whether the drill bit direction is positioned on the actual line, as is changed, and can suitably finely tune.Bit drills is gone in the neck of femur.Perspective enlarges passage after seeing that the position is satisfied, is screwed into hollow screw.

Claims (3)

1. an adjustable percutaneous osteoarthrosis is put the three-dimensional guider of nail; It is characterized in that; Comprise: first arc-shaped rack (1), second arc-shaped rack (3), the first linear tooth bar (4) and the second linear tooth bar (5); Said first arc-shaped rack (1) is positioned at same plane with the second linear tooth bar (5); Said second arc-shaped rack (3) is connected with the first linear tooth bar (4) and is positioned at same plane, and it is perpendicular that first arc-shaped rack (1), the second linear tooth bar (5) belong to plane and second arc-shaped rack (3), the first linear tooth bar (4) belongs to the plane; Said first arc-shaped rack (1) equates with the radius of curvature of second arc-shaped rack (3), and the center of curvature of first arc-shaped rack (1) and second arc-shaped rack (3) coincides with same point O,

Between first arc-shaped rack (1) and second arc-shaped rack (3), be provided with first adapter (11); And first arc-shaped rack (1) is connected with first adapter (11) rotational slide, and second arc-shaped rack (3) is connected with first adapter (11) rotational slide; First arc-shaped rack (1) and first gear (7) engagement that is located on first adapter (11), when rotating first gear (7), first arc-shaped rack (1) and first adapter (11) rotation relatively; Second arc-shaped rack (3) and second gear (8) engagement that is located on first adapter (11), when rotating second gear (8), second arc-shaped rack (3) and first adapter (11) rotation relatively,

Between the first linear tooth bar (4) and the second linear tooth bar (5), be provided with second adapter (12); And first arc-shaped rack (1) is slidingly connected with second adapter (12), and the second linear tooth bar (5) is slidingly connected with second adapter (12); The first linear tooth bar (4) and the 3rd gear (9) engagement that is located on second adapter (12), when rotating the 3rd gear (9), the first linear tooth bar (4) and second adapter (12) relative translation; The second linear tooth bar (5) and the 4th gear (10) engagement that is located on second adapter (12), when rotating the 4th gear (10), the 4th gear (10) and second adapter (12) relative translation,

End at first arc-shaped rack (1) is connected with the arc curvature center of the axis of pilot sleeve (2) and pilot sleeve (2) through first arc-shaped rack (1); Be connected with abutment sleeve (6) and the second linear tooth bar (5) is perpendicular with the axis of abutment sleeve (6) at an end of the second linear tooth bar (5)

Said pilot sleeve (2) and abutment sleeve (6) are positioned at the plane at said first arc-shaped rack (1) and the second linear tooth bar (5) place.

2. adjustable percutaneous osteoarthrosis according to claim 1 is put the three-dimensional guider of nail; It is characterized in that; On first arc-shaped rack (1), second arc-shaped rack (3), the first linear tooth bar (4) and the second linear tooth bar (5), be respectively equipped with the first angle scale scale graticule, the second angle scale scale graticule, the first ruler scale graticule and the second ruler scale graticule; On first adapter (11), be provided with the first angle scale scale graticule observation window and the second angle scale scale graticule observation window, on second adapter (12), be provided with the first ruler scale graticule observation window and the second ruler scale graticule observation window.

3. adjustable percutaneous osteoarthrosis according to claim 1 and 2 is put the three-dimensional guider of nail; It is characterized in that; Any straight line shape tooth bar in the first linear tooth bar (4) and the second linear tooth bar (5) and orthogonal first arc-shaped rack (1), the second linear tooth bar (5) plane, place and second arc-shaped rack (3), the planar intersection in the first linear tooth bar (4) place are parallel, and it is vertical that any another linear tooth bar in the first linear tooth bar (4) and the second linear tooth bar (5) and orthogonal first arc-shaped rack (1), the second linear tooth bar (5) plane, place and second arc-shaped rack (3), the first linear tooth bar (4) belong to planar intersection.

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