RU2195225C2 - Device for fixation of cotyloid cavity fractures - Google Patents

Abstract

FIELD: medicine, particularly, traumatology and orthopedics. SUBSTANCE: plate of 0.35 mm thick is made of titanium alloy with osteoconductive and flexible properties ensuring plate congruence to various forms of parts of cotyloid cavity. Holes in plate are made with diameter of 3 mm and uniformly spaced in parallel rows over entire surface of plate with a distance between hole centers in row of 5 mm, and between rows, 2 mm. EFFECT: stable and rigid fixation of bone fragments with comminuted fractures and congruence of various parts of cotyloid cavity without subsequent removal of fixing member from place of implantation. 3 dwg

Description

 The invention relates to medicine, namely to traumatology and orthopedics.

 The problems of treating fractures of flat and long tubular bones remains relevant especially for Kuzbass, where a significant part of the able-bodied population is employed in the coal industry and in heavy industries characterized by a high level of injuries. 10-12% of the population is injured annually (Klyuchevsky V.V. "Damage Surgery").

 One of the most difficult is intra-articular fractures, as they lead to impaired function of the adjacent joint.

 Fractures of the acetabulum are relatively rare, but due to the fact that they capture the hip joint, which has a significant load, these fractures are of great clinical importance. The results of the treatment of acetabular fractures do not satisfy specialists because of the difficulties of anatomical repositioning, the large number of fragments that cannot be fixed firmly, as well as the combined injuries due to which there are significant difficulties in treatment and high disability of patients - up to 60%.

 The basic principles for the treatment of acetabular fractures are the same as for other intraarticular fractures: anatomical reduction, stable fixation, atraumatic surgery technique. If the joint is anatomically repaired and stably fixed, a good or satisfactory treatment result can be expected. Displacement of acetabular fractures leads, as a rule, to the development of post-traumatic deforming arthrosis.

 Thus, Letoumel (1981), when anatomically comparing the components of the acetabulum, observed good treatment results in 90% of patients, while with insufficiently accurate reposition, he registered good results in only 55% of patients. With a central dislocation with protrusion of the head, good results were observed only in 9% of patients (LN Ankin, NL Ankin "Practice of osteosynthesis and endoprosthetics" Kiev 1994, p. 177-179).

 Known fixing device in the form of a lattice for osteosynthesis and fixing of artificial parts of the body. This lattice has numerous jumpers arranged in the form of a grid, and holes for fixing screws are provided on at least one part of the crossing points of the jumpers. The lattice is characterized in that the line connecting the center points, respectively, of any two openings of the lattice, is located inside the outer edge of the lattice. The lattice covers the bone no more than 45% (Germany, patent 4028021 A 61 B 17/58, A 61 F 2/02, publ. 91.05.29 "Lattice for osteosynthesis or for fixing artificial parts of the body").

The disadvantages of this clamp:
- The presence of sufficiently large gaps between the holes does not provide stable fixation of bone fragments and limits the number of fixing screws.

 - Difficulty in modeling the desired curvature of the retainer according to the anatomical shape of the fixed segment.

 - Lack of osteoconductive properties of the metal.

 A device is known for fixing a mandibular prosthesis. This fixative is made of a titanium sheet compatible with the tissue, having through perforations of a square shape for receiving bone screws to fix the prosthesis to the stump of the lower jaw branch.

 This clamp contains an additional device in the form of a sleeve for insertion of bone screws. (US patent 5489305, publ. 03.10.94, "Mandibular prosthesis", M. C. A 61 F, 2/30).

The disadvantages of this clamp:
- The presence of square perforations reduces the contact area of the retainer with the head of the fixing screw, which significantly reduces the stability of the fixation.

 - An additional fixture is required for holding the fixing screws.

 - This fixative is used directly only for fixing the mandibular prosthesis.

 The closest fixing device to the declared one, selected as a prototype, is the acetabular fracture fixator. This fixative is used for surgical treatment of transverse, marginal and comminuted fractures of the acetabular roof. The latch is made in the form of a plate with mounting holes and screws, the plate is curved in the longitudinal direction and forms a cone-shaped surface, while one longitudinal edge of the plate is defined by an arc with a radius of a small base of the cone corresponding to the outer radius of the acetabulum, and the opposite edge is outlined by curved lines so that the width of the central part of the plate refers to the width of its ends as 2: 1. Perforation holes are staggered, their total area is not more than 40% of the plate area (Auth. Certificate. 1671280 A 61 V 17/58, publ. 91.08.23, BI 31, 1991 "Acetal fracture fixator").

The disadvantages of this clamp:
- The clamp was originally made in the shape of the acetabulum roof and it is not possible to use it on other sections of the acetabulum.

 - The location of the perforation holes and their total area, which is not more than 40% of the plate area, does not provide optimal conditions for creating the desired retainer curvature for other parts of the acetabulum and limits the number of fixing screws.

 - The inability to locate the fixing screws evenly around the entire perimeter of the lock.

 The objective of the invention is to create a retainer that would allow for stable, rigid fixation of bone fragments during multi-fragmented fractures and create congruence of various departments of the acetabulum, without subsequent removal of the retainer from the implantation site.

 The task is achieved in that the plate is 0.35 mm thick, made of a titanium alloy with osteoconductive and elastic properties, ensuring its congruence with various forms of the acetabulum, while the holes in the plate are made with a diameter of 3 mm, evenly distributed in parallel rows over the entire surface of the plate with the distance between the centers of the holes in a row of 5 mm, and between the rows of 2 mm.

The novelty of the device:
1. The presence of osteoconductive properties of the metal does not require removal of the fixative from the implantation site and increases its strength by 15-20 times.

 2. The location of the perforation holes in certain rows allows you to arrange the mounting screws evenly around the entire perimeter of the latch, regardless of its shape.

 3. The diameter of the perforation holes 3 mm allows you to enter into their lumen cortical screws with a threaded thread with a diameter of 2.7 mm.

 4. The distance between the centers of the holes 5 mm and between the rows of 2 mm provide a good germination of the fixative connective and bone tissue.

 5. Fixing cortical screws create rigid fixation with bone fragments.

 6. Many holes and the elastic properties of the plate metal increase the ability of the retainer to create surface congruence and make it possible to draw the largest number of fixing screws through its plane, the thickness of the titanium plate allows you to cut out an individual-sized retainer for each patient.

 In FIG. 1 shows a general view of a workpiece for manufacturing an individual fixture; figure 2 - manufactured individual retainer for osteosynthesis of the posterior edge of the acetabulum; figure 3 - installation diagram of the plate with fasteners.

 The device is a plate of figure 1, made of a titanium alloy with osteoconductive properties (grade VT-1-0, manufactured by NPO Biotechnika, Tomsk), which increases its strength by 15-20 times. Plate thickness 0.35 mm. Evenly over the entire surface, the plate is equipped with holes with a diameter of 3 mm (2) with a distance between their centers of 5 mm, while the holes form rows that are 2 mm apart (3) from each other and thus individual for Each patient fixator creates the conditions for creating the desired curvature (congruence) of the plate in the form of various departments of the acetabulum and the ability to evenly position the fixing screws along its perimeter (1). The presence in the plate of holes with a given diameter and the nature of their location provide optimal conditions for the germination of connective and bone tissue. To fix the fixator, fixing elements are used in the form of cortical screws with a long thread with a diameter of 2.7 mm and a pitch of 1.25 mm, which can be set randomly due to the specified orientation and number of holes depending on the type of fracture and the number of bone fragments.

 The device is installed and operates as follows: rear access to the acetabulum is performed, the fracture site is exposed. An open reposition of bone fragments is performed. From the preform of Fig. 1, a fixator of Fig. 2, individually sized for closing the fracture area, is made, respectively, of the anatomical shape and curvature of the damaged department of the acetabulum, taking into account that the extreme holes of the retainer (1) lie on the undamaged portion of the bone. Through the extreme holes around the perimeter held fixing screws. Thus, a rigid framework is created above the fracture site. Bone fragments through holes (2) are additionally fixed to the plate with screws, which creates a single fixer system - a fracture and ensures stable osteosynthesis. The number of screws depends on the number of bone fragments.

 Clinical example: patient Maksimova Inna Vladimirovna was treated in the traumatology department (MSC) of the State Scientific Center for Surgery of Ophthalmology from 11.06.2000. until 08/25/2000

 Diagnosis: polytrauma. Bruising of the brain of mild severity. Fracture of the pelvis of type B 2, fracture of the bottom and posterior edge of the acetabulum on the left. Open fracture of the humerus in sr / 3 on the left. Closed, not complicated fracture of 2, 3, 4 ribs on the right. Closed fracture of the body of the right shoulder blade. Abrasions of the area of the left knee joint.

 Upon admission to the department for emergency reasons, osteosynthesis of the pelvic bones was performed using an external fixation apparatus, and skeletal traction of the left lower limb behind the condyles of the left thigh. For 3 days the patient was treated in the intensive care unit, where infusion, transfusion, symptomatic therapy was carried out. After stabilization on June 16, 2000, the patient underwent surgery: open reduction, osteosynthesis of the posterior edge and the bottom of the acetabulum with a fixator made of a titanium plate with osteoconductive properties. Back access to the acetabulum reveals the fracture site. After reposition of bone fragments, an individual fixer was made in the form shown in figure 2. 6 cortical screws with a diameter of 2.7 mm are installed around the perimeter of the retainer in the outer holes through healthy bone tissue. Each of the 3 fragments is fixed through the central holes with 2 cortical screws with a diameter of 2.7 mm. Osteosynthesis is stable. For 6 weeks, the patient was on skeletal traction for the left lower limb to unload the left hip joint. The postoperative wound healed by first intention, the sutures were removed on the 10th day.

 After wound healing in the region of the left shoulder, osteosynthesis of the fracture with a plate was made. Primary postoperative wound healing.

 After dismantling the skeletal traction, rehabilitation was carried out. The patient became more active, walked on crutches with a metered load on the left lower limb.

 Discharged from the department in satisfactory condition with recommendations.

Claims (1)

 A device for fixing fractures of the acetabulum, made in the form of a plate with holes and fasteners, characterized in that the 0.35 mm thick plate is made of a titanium alloy with osteoconductive and elastic properties, ensuring its congruence with various forms of the sections of the acetabulum, with holes in the plate is made with a diameter of 3 mm and evenly distributed in parallel rows throughout the plate with a distance between the centers of the holes in the row of 5 mm, and between the rows of 2 mm.

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