RU208381U1 - Template for resection and plastics of tubular bones - Google Patents

Abstract

The utility model relates to medicine, namely to traumatology and orthopedics, and is a template for resection of a pathological focus of a tubular bone in the surgical treatment of patients with false joints, benign tumors, osteomyelitis foci and other bone pathologies, and subsequent plasty of a bone defect. The purpose of creating a utility model is to develop a personalized template for resection and plasty of tubular bones. This goal is achieved by the fact that the template consists of the proximal and distal sections, having the shape of parallelepipeds, the lower surfaces of which correspond to the geometry of the bone and have notches; in the upper part, the sections of the template are combined with each other by two arches; template departments have five through grooves located in one plane at a distance of 1.5 mm from each other; numbers from 1 to 5 are applied sequentially near each groove on the upper surfaces of the sections of the template; at the extreme grooves, each section has two through holes for fixing the template to the bone.

Description

The useful model relates to medicine, namely to traumatology and orthopedics, and is a template for resection of a pathological foci of a tubular bone in the surgical treatment of patients with pseudoarthrosis, benign tumors, osteomyelitic foci and other bone pathologies, and subsequent plasty of a bone defect.

Known guide for osteotomy with grooves for the saw, connected by corner brackets. The grooves are displaced depending on the desired angle along the bracket. [1] The disadvantages of using this guide are the ability to perform an angular osteotomy in only one plane for each of the two saw grooves, the lack of attachment to the bone, the impossibility of adjusting the guide in accordance with the patient's bone characteristics.

A guiding device for osteotomy is known, which includes a guide, a soft tissue protector, a handle for which the device is held on the bone, and a saw groove. [2] The disadvantage of the model is that the device must be displaced to perform each sawdust, while there is no fixation on the bone. This increases the duration of the surgical intervention, increases the likelihood of damage to adjacent anatomical structures, and generally increases the risk of errors during resection.

As a prototype, we took a template for resection in the form of a personalized stereolithographic model with a semi-cylindrical body having four legs for covering the bone; along the perimeter of the body there are through grooves, separated by thin bridges, corresponding to the resection line; at the ends of the body there are through holes for the needles-marks in order to fix the template on the bone. [3]

The disadvantage of the model is the presence of only one groove on each side, which does not allow intraoperatively increasing the volume of resection; the template is designed for resection of only a fragment of the tubular bone without its complete intersection; he does not fix the fragments after resection, which leads to their displacement; the template cannot be used to collect plastic material and perform bone grafting.

The purpose of creating a utility model is to develop a personalized template for resection and plastics of tubular bones.

This goal is achieved by the fact that the template consists of a proximal and distal sections in the form of parallelepipeds, the lower surfaces of which correspond to the geometry of the bone and have notches; in the upper part, the sections of the template are united with each other by two arches; sections of the template have five through grooves, located in the same plane at a distance of 1.5 mm from each other; on the upper surfaces of the sections of the template, numbers from 1 to 5 are sequentially applied near each groove; at the extreme grooves, each section has two through holes for fixing the template to the bone.

The conformity of the shape of the lower surfaces of the proximal and distal sections of the template to the geometry of the bone surface contributes to the stabilization and reliable fixation of the template. The presence of space between the arches in the upper part of the template makes it possible to freely remove the resected bone fragment and visually monitor the viability of the remaining ends of the fragments.

The presence of five through grooves in the sections of the template makes it possible to perform resection to an intact healthy bone. The distance of 1.5 mm between the grooves is optimal for stepwise resection without destroying the ends of the bone fragments. Two through holes at the extreme grooves are needed to fix the sections of the template with knitting needles on the bone. The template is not removed after resection, which preserves the position of the bone fragments and allows the fragments to be fixed with a metal fixator prior to bone grafting and final osteosynthesis.

Excavation of the lower surfaces of the sections of the template allows you to freely pass an extra-osseous fixator under it and perform, without removing the template, stabilization of the position of bone fragments by passing screws through the fixator and the bone above and below the template.

After stabilization of the fragments, the template is removed and used for the collection of bone plastic material. The digital marks applied at the grooves allow the surgeon to remember their numbers and to perform resection of the donor tubular bone in the same planes and obtain a graft of the required length. All this contributes to the optimal placement of the donor bone between the fragments and the implementation of the final osteosynthesis.

The template is a stereolithographic model made on the basis of computed tomography data of a bone with a pathological focus; it consists of a proximal and distal sections in the form of parallelepipeds, the lower surfaces of which correspond to the geometry of the bone and have notches; in the upper part, the sections of the template are united with each other by two arches; sections of the template have five through grooves, located in the same plane at a distance of 1.5 mm from each other; on the upper surfaces of the sections of the template, numbers from 1 to 5 are sequentially applied near each groove; at the extreme grooves, each section has two through holes for fixing the template to the bone.

The utility model is illustrated by graphic material. The template consists of a proximal 1 and distal 2 sections, which have the shape of parallelepipeds, united with each other in the upper part by two arches 3. Sections 1 and 2 of the template have five through grooves 4, located in the same plane at a distance of 1.5 mm from each other ... On the upper surfaces of sections 1 and 2 of the template sequentially near each groove 4 there are marks from 1 to 5; the extreme grooves 4 of sections 1 and 2 have two through holes 5 each, in the lower part of the sections 1 and 2 of the template have recesses 6 for holding the plate.

The template is used as follows. Before the operation, on a three-dimensional model of a bone with a pathological focus, for example, a pseudarthrosis, created on the basis of its computed tomography, the optimal dimensions, the shape of the template, the planes of the grooves for resection, the shape of the notch, and the location of the holes are determined. A stereolithographic template is printed on a 3D printer.

During the operation, the template is placed on the surface of the bone in the area of the pathological focus, for example, the pseudarthrosis, so that the area is between the arches. The template is fixed with knitting needles through the through holes near the extreme grooves. Bone resection is performed with an oscillating saw, starting from the grooves indicated by the number 1. If after the sawdust the pathologically altered bone is exposed, then resection is performed sequentially along the following grooves until a visually healthy intact bone appears on the sawdust. The resected bone fragments are removed. Memorize the numbers of the grooves through which the resection was performed.

The template is not removed. An extraal plate is passed under the grooves of the sections of the template, it is fixed to the proximal and distal bone fragments with screws above and below the template, keeping the position of the fragments. The needles are removed, the template is removed and transferred to the donor tubular bone. Fix in the same way. The sawdust of the donor bone is performed through the same grooves, which allows maintaining the sawdust shape and the length of the graft. The graft is removed from the template, transferred between the proximal and distal bone fragments, the final osteosynthesis is performed, fixing the graft to the plate with screws.

The method is illustrated by clinical examples.

Example 1. Patient O., 35 years old, turned to the trauma and orthopedic department with complaints of pain in the middle third of the right forearm. Examination revealed local soreness, deformity in the projection of the middle third of the right radius. When analyzing the computed tomography data of the right forearm, signs of a pseudarthrosis of the middle third of the right radius and the presence of a metal fixator were found.

In the preoperative period, on a three-dimensional model of the right radius with a pseudarthrosis, created on the basis of its computed tomogram, the optimal dimensions, the shape of the template, the planes of the grooves for resection, the shape of the notch, and the location of the holes for fixation were determined. A stereolithographic template was printed on a 3D printer.

An access was performed intraoperatively in the projection of the pseudarthrosis in the middle right radius; soft tissues were bluntly and sharply divorced. The template was installed on the surface of the radius so that the area of the pseudarthrosis was between its arches. The template was fixed with knitting needles through the through holes at the extreme grooves.

Resection was performed with an oscillating saw. Intact healthy bone sawdust was found after resection of 2 groove in the distal part and 3 groove in the proximal part of the template. The resected bone fragments were removed. The template continued to fix the fragments. An extraosseous reconstructive plate was held under the notches of the template, and it was fixed with screws to the bone fragments above and below the template. After that, the wires were removed, the template was removed and transferred to the donor bone allograft - lyophilized cadaveric radius. The template was fixed with pins, the graft was cut through the 2nd slot distally and the 3rd slot proximally. The allograft was removed from the template, transferred between the proximal and distal bone fragments of the patient's radius, and the final osteosynthesis was performed.

Intraoperatively, there were no complications, trauma to anatomical structures, or any difficulties in fixation when using the template. Osteosynthesis is stable. The patient was examined in dynamics. Consolidation of fragments of the right radius was noted 3 months after the operation.

Example 2. Patient B., 30 years old, turned to the trauma and orthopedic department with complaints of pain in the upper third of the right leg. Examination revealed local soreness in the upper third of the right leg, a dense, immobile formation. When analyzing the data of a computed tomogram of the right tibia, an osteoma of the upper third of the right tibia with dimensions of 4 × 2 cm was found.

In the preoperative period, on a three-dimensional model of the right tibia with a pathological focus, created on the basis of its computed tomogram, the optimal dimensions, the shape of the template, the plane of the grooves for resection, the shape of the notch, and the location of the holes were determined. A stereolithographic template was printed on a 3D printer.

Intraoperatively, an access was made in the projection of the osteoma along the medial surface of the upper third of the right leg, the soft tissues were bluntly and sharply divorced. The template was placed on the surface of the tibia so that the area of the pathological focus was between the arches of the template. The template was fixed with knitting needles through the through holes near the extreme grooves. With an oscillating saw, the bone was resected in 2 grooves in the distal and 1 groove in the proximal parts of the template until an intact healthy bone appeared on the sawdust. The resected fragments were removed and sent for histological examination.

The template continued to fix the fragments. An angularly stable bone plate was held under the template recesses, and it was fixed to the fragments above and below the template. After that, the wires were removed, the template was removed and transferred to the donor allograft - lyophilized cadaveric tibia. The template was fixed with knitting needles, the graft was filed through similar grooves. The allograft was removed from the template, transferred and positioned between the proximal and distal bone fragments of the patient's tibia, and the final osteosynthesis was performed. Intraoperatively, there were no complications, trauma to anatomical structures, difficulties in fixing and using the template. Osteosynthesis is stable. The patient was examined in dynamics. Consolidation of fragments of the right tibia was noted 5 months after the operation.

The template can be used in traumatology, orthopedic, and oncology departments for the surgical treatment of patients with false joints, benign tumors, osteomyelitic foci and other bone pathologies, and subsequent plastic surgery of the bone defect.

SOURCES OF INFORMATION

1.G.M. Chibirov. Saw guide for osteotomy: RF patent for utility model No. 159058 dated January 27, 2016

2. E.A. Askerko. Guiding-protective device for osteotomy: patent of the Republic of Belarus No. 10140 dated 12/30/2007.

3. G.P. Kotelnikov, S.V. Kozlov, S.A. Prikhodko, O. I. Kaganov, A.V. Kolsanov, D.A. Dolgushkin, A.N. Nikolaenko, V.V. Ivanov. Template for resection of tubular bones: RF patent for a useful model No. 164811 dated 20.09.2016.

Claims (1)

A template for resection and plasty of tubular bones, which is a stereolithographic model made on the basis of computed tomography data of a bone with a pathological focus, with grooves for resection, through holes for fixation to the bone, characterized in that the template consists of proximal and distal sections, having a shape parallelepipeds, the lower surfaces of which correspond to the geometry of the bone and have notches; in the upper part, the sections of the template are united with each other by two arches; sections of the template have five through grooves, located in the same plane at a distance of 1.5 mm from each other; on the upper surfaces of the sections of the template, numbers from 1 to 5 are sequentially applied near each groove; at the extreme grooves, each section has two through holes for fixing the template to the bone.

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