RU179883U1 - BIOIMPLANT PREPARATION TEMPLATE FOR RINOPLASTY - Google Patents

Abstract

A template for the preparation of a bioimplant for rhinoplasty, having a through groove, characterized in that it is a personalized stereolithographic model consisting of two compatible parts, the convex surface of the first part of the template repeating the planned shape of the patient’s nose and has cone-shaped recesses located at a distance of 0.3 see from each other; the second part of the template has a continuous continuous groove for cutting a bioimplant for rhinoplasty, and its concave surface, corresponding in shape to the convex surface of the first part, has conical spines located at a distance of 0.3 cm from each other; which, when combining both parts, correspond to the recesses on the convex surface of the first part of the template.

Description

The utility model relates to medicine, namely to the use of biological implants for tissue replacement and restoration in otorhinolaryngology, maxillofacial surgery, plastic surgery.

A known method of manufacturing an allograft from TMT, canned in a 0.2% alcohol solution of thymol TMO [1]. The disadvantages of the method are its complexity, the need for anthropometric data to simulate a bioimplant, the need for additional tools for introducing and straightening soft TMT, canned by this method; lack of conditions for rapid revascularization of the bioimplant and fixation of TMT in the plastic zone.

A known model of a guide-protective device for osteotomy, containing a guide and a protective pad. The guide has a through groove for resecting the oscillating saw. [2]

The disadvantage of this model is the limited anatomical scope, the lack of a personalized approach when planning the line of resection of the biomaterial (bone) through the groove.

The purpose of creating a utility model is to develop a personalized template for the preparation of an implant for rhinoplasty.

This goal is achieved in that the template is a personalized stereolithographic model consisting of two compatible parts, while the convex surface of the first part of the template repeats the planned shape of the patient’s nose and has cone-shaped recesses located at a distance of 0.3 cm from each other; the second part of the template has a continuous continuous groove for cutting a bioimplant for rhinoplasty, and its concave surface, corresponding in shape to the convex surface of the first part, has conical spines located at a distance of 0.3 cm from each other; which, when combining both parts, correspond to the recesses on the convex surface of the first part of the template.

The technical result of using this template is the preparation of a personalized bioimplant for plastics of the nasal bridge.

Individual preoperative planning, production of a personalized stereolithographic template allows you to prepare the optimal bioimplant for rhinoplasty. Perforation of bioimplants is an important step. The presence of holes contributes to the outflow of exudate from the plastic zone, which is the prevention of edema and seam divergence. Perforations contribute to end-to-end revascularization, connective tissue germination, which improves the integration of allogeneic material with adjacent tissues and promotes effective regeneration in the plastic zone. Also, perforated holes serve for holding fixing suture threads through the bioimplant.

The template for preparing a bioimplant for rhinoplasty is a personalized stereolithographic model consisting of two compatible parts, while the convex surface of the first part of the template repeats the individual shape of the patient’s nose and has cone-shaped recesses located at a distance of 0.3 cm from each other; the second part of the template has a continuous continuous groove for cutting a bioimplant for rhinoplasty, and its concave surface, corresponding in shape to the convex surface of the first part, has conical spines located at a distance of 0.3 cm from each other; which, when combining both parts, correspond to the recesses on the convex surface of the first part of the template.

Comparison of the proposed device with others known in the field of medicine showed its compliance with the criteria of a utility model.

The template is used as follows.

Before the operation, by processing three-dimensional digital images of computed tomography and magnetic resonance imaging of the zone of interest in the STL format, the planned shape of the patient’s nose, the contour and size of the bioimplant for rhinoplasty are determined; in accordance with this, two parts of the stereolithographic template are printed on a 3D printer, so that the convex surface of the first part of the template follows the planned shape of the patient’s nose, and the second part of the template has a continuous through groove for cutting a bioimplant for rhinoplasty. A machined and washed bioimplant is placed on the convex surface of the first part of the template. Combine both parts of the template, while the spines perforate the bioimplant. Through a continuous continuous groove of the second part of the template, a bioimplant of a given shape is cut with a cutting tool. Remove the second part of the template. The bioimplant is frozen at a temperature of -60 ° C; lyophilized, then removed from the first part of the template, hermetically packed and sterilized by the radiation method.

Achievements of the technical result are confirmed by a clinical example. Patient A, 34 years old, turned to the ENT department with complaints of retraction of the nasal bridge after an injury several years ago. On examination, the patient: has a retraction of the nasal bridge with its expansion and the slopes of the back. Before the operation, preoperative planning was performed on the basis of CT and MRI data of the area of interest. An individual stereolithographic template was created, with the help of which an optimal bioimplant, given in configuration and size, was made from TMT. There were no intraoperative complications. The postoperative period was calm. The shape of the nose is good, the defect in the back of the nose is fixed. The patient was examined after 3, 6 and 12 months after surgery - the cosmetic picture was stable. The patient was satisfied with the result of the operation.

The template is recommended for use in the manufacture of personalized bioimplants for nasal dorsoplasty in ENT hospitals, departments of maxillofacial and plastic surgery

INFORMATION SOURCES:

1. "The use of the allograft from the dura mater for the surgical removal and prevention of irregularities in the nasal dorsum" Journal of the "Annals of Plastic, Reconstructive and Aesthetic Surgery" No. 1, 2010, pp. 23-35.

2. E.A. Askerko. Guide-protective device for osteotomy: patent of the Republic of Belarus No. 10140 dated December 30, 2007

Claims (1)

A template for the preparation of a bioimplant for rhinoplasty, having a through groove, characterized in that it is a personalized stereolithographic model consisting of two compatible parts, the convex surface of the first part of the template repeating the planned shape of the patient’s nose and has cone-shaped recesses located at a distance of 0.3 see from each other; the second part of the template has a continuous continuous groove for cutting a bioimplant for rhinoplasty, and its concave surface, corresponding in shape to the convex surface of the first part, has conical spines located at a distance of 0.3 cm from each other; which, when combining both parts, correspond to the recesses on the convex surface of the first part of the template.