CN202821575U - Ulna far-end dissection locking type bone plate - Google Patents

Abstract

The utility model discloses an ulna far-end dissection locking type bone plate which comprises a stem body main board and a flank plate, wherein the stem body main board is arranged on the ulnar side of an ulna far-end and matched with an ulna in shape; the flank plate is arranged on the ulnar side of an ulna far-end bone protrusion and matched with the ulna far-end bone protrusion in shape; the stem body main board and the flank plate are metal plates which are integrally connected; an included angle alpha of a central axis of the stem body main board and a central axis of the flank plate is 40-80 degrees; and a plurality of screw connection holes and kirschner needle holes are formed in the stem body main board and the flank plate. According to the ulna far-end dissection locking type bone plate, the flank plate extends to increase the number of placed far-end screws and grasping force of far-end fastening screws, and therefore fixation is solid; a plurality of locking screw holes and a plurality of adjustment screw holes are formed in the bone plate, manufacturing processes are simplified, and use-cost is reduced; the bone plate is thin, tensile force is small when an incision is stitched, the ulna far-end bone protrusion is avoided, and therefore subcutaneous tensile force and bone surface tensile force are reduced; the design that the flank plate and the locking screw hole are different in direction enables the screws to be fixed in different planes, and fixation strength of a fracture part is increased.

Description

A kind of ulna far-end is dissected locking-typed blade plate

Technical field

This utility model belongs to the blade plate technical field, is specifically related to a kind of interior fixation bone fracture plate that is used for the treatment of the ulna fracture of distal, belongs to the interior fixedly medical instruments field of orthopaedics.

Background technology

The destruction of ulna far-end anatomical structure directly causes the destruction of distal radioulnar ioint, TFC and interosseous membrane, thereby has a strong impact on the functional rehabilitation of wrist and forearm.The rotation of forearm is take ulna as the axle center, and radius is by the interosseous membrane rotation that links to each other with ulna.Thereby the stability of ulna has determined the stable of distal radioulnar ioint and forearm spinfunction.The characteristics that 1/3 adheres to muscle group remind us when treatment ulna fracture of distal, need strong interior fixing or Gypsum Fibrosum to reinforce, be enough to resist because elbow, wrist, refer between the fracture end displacement that causes of activity and forearm rotation.For the ulna fracture of distal, the tradition plintlet fixedly is difficult to grasp elasticity outward, and swelling itself can cushion outer fixture greatly to the restraining forces of fracture end, the swelling rear adjustment plintlet elasticity that disappears, if untimely adjustment all can increase the probability of displacement fracture, thereby cause treating unsuccessfully.Now advocate to fix in the open reductions, fixing in the Kirschner wire can not be anti-rotation, fixing not firm more.Fixing can not be three-dimensional fixing and need fully to expose and destroy local blood fortune in the tension band.Because the ulna fracture of distal is near cubit joint and distal radioulnar ioint, general steel plate is fixing comparatively difficult, and the fracture far-end is fixed 1～2 piece of screw only, and is fixing insecure, often needs the outer fixing auxiliary of long period, has increased the generation of ankylosis one class complication.

Summary of the invention

The purpose of this utility model is the deficiency for fixation bone fracture plate in existing, provide a kind of ulna far-end to dissect locking-typed blade plate, it can meet the anatomical features of ulna far-end, can strengthen the fixing hold of screw, avoid screw loosening, the anatomical reduction that can guarantee again to fracture is with fixing, so that distal radioulnar ioint and chi carpal joint maintain on the normal anatomy position.

For realizing the purpose of this utility model, be achieved by the following technical solutions: a kind of ulna far-end is dissected locking-typed blade plate, include to be placed in ulna far-end ulnar side and with the stem body mainboard of ulna form fit, and be placed in ulna distal bone projection ulnar side and play the side wing of form fit with apophysis, the stem body mainboard is connected the metallic plate that integral type connects with side wing, and the angle a of the axis of stem body mainboard and side wing axis is 40 °～80 °; Be provided with a plurality of screw connecting holes and Kirschner wire hole on described stem body mainboard and the side wing.

As preferred version: described screw connecting hole includes 3-5 of being arranged on the stem body mainboard and regulates screw, and 2-3 of being arranged on the side wing locks screw.

As preferred version: be respectively arranged with 4-8 Kirschner wire hole on described stem body mainboard and the side wing.

As preferred version: the described axis that each regulates screw and locking screw is positioned on the Different Plane.

As preferred version: described stem body mainboard and side wing thickness are 1.0mm-3.5mm.

Compared with prior art, the beneficial effects of the utility model have: 1. blade plate is close to surface of bone, with ulna far-end anatomic form coupling, does not affect the activity of distal radioulnar ioint; 2. extend by side wing, increase distal screw and insert quantity, increase the hold-down screw grasping force of far-end, fixation; 3. be designed with a plurality of screw hole and several adjusting screws on the blade plate, simplified manufacturing process, reduce use cost, the hold that lock screw can be strengthened fixing; 4. blade plate is thinner, and tension force is low during myometrial suture, and avoids ulna distal bone bossing, reduces subcutaneous and tension force surface of bone; 5. the design of different directions by side wing and locking screw can make screw present the fixing of Different Plane, increases the constant intensity of fracture site; 6. be designed with several pieces of Kirschner wire holes on the blade plate, can temporary fixed bone piece or blade plate, soft tissue that again can the suture repair periphery; 7. the Kirschner wire hole of blade plate far-end can be fixed for processus styloideus ulnae tension band wiring or suture; 8. aesthetic in appearance, do not affect the daily routines such as wear the clothes, lie up, blade plate between demurrage Quality of Life little.

Description of drawings

Fig. 1 is a kind of structural representation of the present utility model.

Fig. 2 is the structural representation of embodiment 1.

Fig. 3 is the structural representation of embodiment 2.

1, stem body mainboard; 2, regulate screw; 3, Kirschner wire hole; 4, locking screw; 5, side wing; 6, ulna; 61, apophysis plays (specifically refer to: bone processus styloideus ulnae basilar part apophysis rises).

The specific embodiment

The below makes a detailed explanation the specific embodiment of the present utility model with reference to the accompanying drawings.

Embodiment 1

According to illustrated in figures 1 and 2, the described a kind of ulna far-end of the present embodiment is dissected locking-typed blade plate, include to be placed in ulna far-end ulnar side and with the stem body mainboard 1 of ulna form fit, and be placed in ulna distal bone projection ulnar side and play the side wing 5 of form fit with apophysis, stem body mainboard 1 is connected with side wing and is the metallic plate that integral type connects, and the angle a of the axis of stem body mainboard 1 and side wing 5 axis is 40 °; Described stem body mainboard 1 is provided with 3 and regulates screw 2 and 6 Kirschner wire holes 3, is provided with 2 locking screws 4 and 4 Kirschner wire holes 3 on the side wing 5.

The described axis that each regulates screw 2 and locking screw 4 is positioned on the Different Plane, and namely the different directions in the ulnad extends during screw lock, has strengthened fixing firmness.

Described stem body mainboard and side wing thickness are 1.2mm.

When this blade plate is installed, after fracture site is resetted, the stem body mainboard 1 of blade plate is placed in the ulnar side of ulna far-end, side wing 5 is positioned over the ulnar side that apophysis rises, and notes protection attaching soft tissue on every side, bump when as far as possible avoiding distal radioulnar ioint movable.For providing fixedly processus styloideus ulnae of tension band wiring or suture with fracture of processus styloideus ulnae.For Fracture Simple, first after the adjusting screw 2 of fracture near-end uses screw fixing, select again the adjusting screw 2 of far-end to use screws to carry out the fracture end pressurization, C shape arm X-ray machine perspective fracture reduction, fixing satisfied after by locking screw 4 use that lock screw are fractured far, the fixing of near-end.The advantage of using this blade plate is that anatomical reduction is effective, and blade plate and ulna far-end anatomic form are complementary, and the ulna far-end is maintained on the normal anatomical position, strengthens the fixing intensity of screw, has advantages of simple for structure, good fixing effect.

Embodiment 2

As shown in Figure 3, the ulna far-end of the present embodiment is dissected locking-typed blade plate, include to be placed in ulna far-end ulnar side and with the stem body mainboard 1 of ulna form fit, and be placed in ulna distal bone projection ulnar side and play the side wing 5 of form fit with apophysis, stem body mainboard 1 is connected with side wing and is the metallic plate that integral type connects, and the angle a of the axis of stem body mainboard 1 and side wing 5 axis is 80 °; Described stem body mainboard 1 is provided with 4 and regulates screw 2 and 8 Kirschner wire holes 3, is provided with 2 locking screws 4 and 6 Kirschner wire holes 3 on the side wing 5.Described stem body mainboard 1 and side wing 5 thickness are 1.2mm or 1.5mm.

Claims (5)

1. a ulna far-end is dissected locking-typed blade plate, it is characterized in that: include to be placed in ulna far-end ulnar side and with the stem body mainboard of ulna form fit, and be placed in ulna distal bone projection ulnar side and play the side wing of form fit with apophysis, the stem body mainboard is connected the metallic plate that integral type connects with side wing, and the angle a of the axis of stem body mainboard and side wing axis is 40 °～80 °; Be provided with a plurality of screw connecting holes and Kirschner wire hole on described stem body mainboard and the side wing.

2. a kind of ulna far-end according to claim 1 is dissected locking-typed blade plate, it is characterized in that: described screw connecting hole includes 3-5 the adjusting screw that is arranged on the stem body mainboard, and is arranged on 2-3 locking screw on the side wing.

3. a kind of ulna far-end according to claim 1 is dissected locking-typed blade plate, it is characterized in that: be respectively arranged with 4-8 Kirschner wire hole on described stem body mainboard and the side wing.

4. a kind of ulna far-end according to claim 2 is dissected locking-typed blade plate, it is characterized in that: the described axis that each regulates screw and locking screw is positioned on the Different Plane.

5. a kind of ulna far-end according to claim 1 is dissected locking-typed blade plate, it is characterized in that: described stem body mainboard and side wing thickness are 1.0mm-3.5mm.

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