RU2651893C1 - Method of correcting osteotomy of a short tubular bone - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to orthopedics, and is intended for use in the surgical treatment of the effects of injuries to the musculoskeletal system. Surgical access to deformed bone, its osteotomy with correction of angular and rotational deformations and fixation by the plate, wound suturing are performed. In this case, through the top of the deformation of the bone in the sagittal plane, the Kirschner wire is drawn at an angle of 80–90° to the distal fragment. Through the top of the deformation of the bone, parallel to the wire, a V-shaped osteotomy is performed, leaving a bone bridge between fragments 0.5–1 mm wide at the apex of the deformation angle. Each of the osteotomy lines in the frontal plane is positioned at an angle of 35–40° to the longitudinal axis of the bone, so that the cutting line in the sagittal plane passes vertically at an angle of 80–90° to the distal fragment. Through the wire remaining in the distal fragment, one of the apertures of the plate is passed through and fixed with one cortical screw its distal edge to the distal fragment. Perform a reposition of fragments, accompanied by osteoclasis, with the removal of the angular, rotational deformations and bone shortening. Finish fixing the plate with screws in the proximal and distal bone fragments with the implementation of compression between them.

EFFECT: method allows to reduce the number of complications, to shorten the periods of immobilization and to improve the results of treatment of patients with posttraumatic deformities of tubular bones.

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Description

The invention relates to medicine and relates to methods for surgical treatment of the consequences of injuries of the musculoskeletal system, in particular, incorrectly fused short tubular bones.

There is a method of treating abnormally fused short tubular bones, such as metacarpals, which consists in performing corrective osteotomy of the metacarpal bone at the level of its deformation. In order to eliminate angular deformation of the bone, its osteotomy and reposition are performed on the palmar side. An allograft is placed in the resulting bone defect, 4 and 5 metacarpal bones are transfected with Kirschner spokes, the surgical wound is sutured, and an immobilization dressing is applied (1).

The disadvantage of this method is that the use of a non-vascularized bone allograft complicates bone fusion, does not exclude technical difficulties in retaining and stable fixation of the graft, which can cause secondary displacement, non-growth of the crossed bone, migration of spokes and suppuration of soft tissues in the area of their conduct, long-term rehabilitation and the need for repeated operations.

There is a method of treating abnormal metacarpal fractures, namely, in order to eliminate angular deformities of the bone, a double osteotomy is performed with the formation of a trapezoid graft at the apex of deformation, the graft is rotated 180 ° and placed between the proximal and distal bone fragments, reposition of fragments, axis which are combined, osteosynthesis is performed with a mini-plate and screws, the surgical wound is sutured, and a splint is applied (2).

The disadvantages of this method are that they perform a double osteotomy, followed by rotation of the central fragment, which completely deprives it of blood supply. The use of a non-blood supply bone fragment (autograft) can make bone fusion more difficult. Technical difficulties are also possible in the proper positioning and stable fixation of the transplant, which can cause secondary displacement and nonunion of the crossed bone, a high risk of complications, prolonged rehabilitation and the need for repeated operations.

A known method, which consists in the intersection of the metacarpal bone at the level of its deformation. In order to eliminate angular deformation of the bone, a double osteotomy is performed with the formation of a wedge-shaped graft along the back surface of the bone, after resection of which reposition of fragments is carried out, the axes of which are combined, osteosynthesis is performed with a mini-plate and screws, the surgical wound is sutured, and an immobilization dressing is applied (3). This method is taken by us as a prototype.

The disadvantages of the method: due to resection of the wedge-shaped graft, there is a loss of height of the metacarpal bone; which violates the alignment of the metacarpophalangeal joints, causes a decrease in the flexion strength of the damaged beam and pain during exertion; as a result of incomplete restoration of the length of the metacarpal bone, the function and appearance of the hand are disrupted.

The aim of the present invention is to eliminate the angular and rotational deformation of a short tubular bone, restoring its length, reducing the likelihood of nonunions and repeated operations, improving the function and appearance of a limb segment.

This goal is achieved by the fact that through the top of the bone deformation in the sagittal plane, the Kirchner needle is drawn at an angle of 80-90 ° to the distal fragment; through the back vertex of bone deformation, parallel to the spoke, a V-shaped osteotomy is performed, leaving a bone jumper between fragments 0.5-1 mm wide at the top of the deformation angle; each of the osteotomy lines in the frontal plane is positioned at an angle of 35-40 ° to the longitudinal axis of the bone so that the cut line in the sagittal plane runs vertically at an angle of 80-90 ° to the distal fragment; through the spoke remaining in the distal fragment, one of the holes of the plate is passed and its distal edge is fixed with a cortical screw to the distal fragment; perform reposition of fragments, accompanied by osteoclasia, with the elimination of angular, rotational deformations and shortening of the bone; complete the fixation of the plate by holding screws in the proximal and distal fragments of the bone with the implementation of compression between them.

Comparison of the proposed method with other known in the field of medicine showed its compliance with the criteria of the invention.

The technical result of the proposed method is to restore the length and angular ratios of the short tubular bone, reducing the risk of complications, shortening the treatment time and improving the quality of life of this category of patients.

The method is illustrated in graphic material. In FIG. Figure 1 shows a skygram of an abnormally fused short tubular (metacarpal) bone in a sagittal (lateral) projection, through which a Kirschner needle (1) is drawn through an apex of deformation at an angle of 80-90 ° to the longitudinal axis of the distal fragment (2). In FIG. Figure 2 shows the bone diagram of the bone in the frontal plane with the lines of the osteotomy (3) at an angle α = 35-40 ° to the longitudinal axis of the bone. In FIG. 3 - a skygram of the tubular bone after an osteotomy, elimination of its shortening, angular and rotational deformation.

Performing a V-shaped osteotomy of the bone at the top of its deformation allows for contact between the fragments and at the same time corrects the angular and rotational deformations with the restoration of the anatomical length of the bone. Leaving the bony bridge at the top of the deformity when performing an osteotomy on the back of the bone gives greater stability during the reposition of bone fragments.

The implementation of the corrective osteotomy of the short tubular bone is shown on the example of the metacarpal bone of the hand. The patient lies on his back with his arm extended and a supinated hand. Through a longitudinal, slightly curved incision along the back of the hand, the skin and subcutaneous tissue are dissected in the projection of the deformed metacarpal bone. Finger extensor tendons are laid to the sides. The metacarpal bone is exposed at the apex of its deformation, as well as proximal and distal. Through the top of the bone deformation in the sagittal plane, the Kirchner needle (1) is drawn at an angle of 80-90 ° to the long axis of the distal fragment (2) (Fig. 1); through the back apex of bone deformation, parallel to the spoke, a V-shaped osteotomy is performed, leaving a bone jumper between fragments 0.5-1 mm wide at the apex of the deformation angle (Fig. 2). Each of the osteotomy lines (3) in the frontal plane is positioned at an angle of 35-40 ° to the longitudinal axis of the bone so that the cut line in the sagittal plane runs vertically at an angle of 80-90 ° to the distal fragment. One of the holes of the plate is passed through a spoke remaining in the distal fragment, and its distal edge is fixed with a cortical screw to the distal fragment. Reposition of fragments is carried out, accompanied by osteoclasia, with the elimination of angular, rotational deformations and shortening of the bone (Fig. 3). Fixation of the plate is completed by holding screws in the proximal and distal bone fragments with the implementation of compression between them. Carry out hemostasis. The wound is sutured in layers. The brush and wrist joint are fixed with a splint (orthosis) from the fingertips to the upper third of the forearm in the extension position of the wrist joint 45 °, flexion in the metacarpophalangeal joints to 70-90 °, flexion in the interphalangeal joints 0-10 ° for a period of 3-4 weeks . From the first postoperative day, active movements in the joints of the hand and fingers begin without load.

The proposed method is illustrated by a clinical example.

Patient A., 16 years old, a school student, was admitted to the trauma unit of the Samara Regional Clinical Hospital named after Samara Regional Clinical Hospital V.D. The middle "10/26/2015 year. Injured - a closed fracture of the 5 metacarpal bone of the right hand with displacement of fragments received May 28, 2015. He was treated conservatively at the place of residence. On admission, deformity of the right hand with retraction of the head of the 5 metacarpal bone was noted, the volume of active movements in the metacarpophalangeal joint was 66%, the force of rough grip of the hand was 54.6% compared with the intact limb, the patient experienced pain with light load (3/10 visual analogue scale - YOUR). On radiographs of the right hand, shortening of the 5 metacarpal bone and its angular deformation in the distal third at 28 ° were noted. October 27, 2015, the operation was performed according to the proposed method. The postoperative period was uneventful. From the 1st postoperative day, movements in the metacarpophalangeal joints of the operated hand began. The operated hand was immobilized with a removable spacer. 4 weeks after surgery, an outpatient course of rehabilitation physiotherapy and balneotherapy was started. Metacarpal fusion in the osteotomy area was noted after 8 weeks. On examination: the deformity of the hand was eliminated, the range of active movements in the metacarpophalangeal joint was 92%, the force of rough grip of the hand was 129% compared with the intact limb, the pain was absent at rest and under load (0.5 / 10 on the visual analogue scale - YOUR ) On examination, 6 months after the operation, a complete restoration of the function of the hand was noted, the metal structure was removed.

The proposed method can and should be used in the treatment of patients with improperly fused fractures of short tubular bones in hospitals with a traumatologic and orthopedic profile. Its use will reduce the number of complications, reduce the time of immobilization and disability, and improve the treatment results of patients with post-traumatic deformity of the tubular bones

INFORMATION SOURCES

1. Zhang X., Liu Z., Shao X., Wang L. Palmar opening wedge osteotomy for malunion of fifth metacarpal neck fractures // J. Hand Surg. Am. 2013; 38 (12): 2461-2465.

2. Yong F.C., Tan S.H., Tow B.P. B., Teoh L.C. Trapezoid rotational bone graft osteotomy for metacarpal and phalangeal fracture malunion // J. Hand Surg. 2007; Vol. 32E: 3: 282-288.

3. Karthik K., Tahmassebi R., Khakha R. S., Compson J. Corrective osteotomy for malunited metacarpal fractures: long-term results of a novel technique // J. Hand Surg. 2015; Vol. 40E: 8: 840-845.

Claims (1)

Method of corrective osteotomy of the metacarpal bone, including surgical access to the deformed bone, its osteotomy with correction of angular and rotational deformities and fixation with a plate, suturing a wound, characterized in that a Kirchner needle is passed through the top of the bone deformation in the sagittal plane at an angle of 80-90 ° to the distal fragments; through the top of the bone deformation, parallel to the spoke, a V-shaped osteotomy is performed, leaving a bone jumper between the fragments 0.5-1 mm wide at the top of the deformation angle; each of the osteotomy lines in the frontal plane is positioned at an angle of 35-40 ° to the longitudinal axis of the bone so that the cut line in the sagittal plane runs vertically at an angle of 80-90 ° to the distal fragment; one of the plate holes is passed through a spoke remaining in the distal fragment, and its distal edge is fixed with a cortical screw to the distal fragment; perform reposition of fragments, accompanied by osteoclasia, with the elimination of angular, rotational deformations and shortening of the bone; complete the fixation of the plate by holding screws in the proximal and distal bone fragments with the implementation of compression between them.

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