RU2297817C1 - Method for making orbit wall prosthesis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves making incision in transitive fold of oral cavity vestibule. Patient soft tissues are separated to the lower orbit edge and medial, inferior and lateral orbit walls are released. Porous titanium nickelide endoprosthesis is introduced through the produced tissue tunnel and set in prepared bed.

EFFECT: improved cosmetic effect.

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Description

The invention relates to medicine, specifically to reconstructive plastic surgery, and is intended to restore the walls of the orbit.

A known method of prosthetics of the walls of the orbit using hydrogel implants (endoprostheses). In this method, polymer implants in the form of isolated hydrogel plates and a combined reinforced hydrogel, which is a VT-100 titanium perforated plate (GOST 19807-91), polymerized into a hydrogel composition, are used for plastics of a deformed orbit.

However, when using this method of plastics, due to hydrophilicity and permeability of hydrogels, a thin connective tissue capsule is formed around them. The latter does not provide a stable implant position; in addition, the smooth surface of the hydrogel excludes its germination by body tissues. Therefore, in order to prevent migration, it is necessary to firmly fix the reinforced implant with screws to the intact bone and suture the isolated hydrogel plates to the main implant or periosteum. As you know, any metal implant, rigidly fixed to the tissues, will undergo alternating deformation from the side of the tissues, significantly exceeding the capabilities of metals. Metals allow alternating shape changes without permanent deformation within 0.3-0.5%. And body tissues are able to deform a metal implant by more than 2%, so the implant is plastically deformed already in the first cycle of deformation. Plastic deformation not only leads to the destruction of the protective phosphate and oxide films of titanium and its alloys, but also the deeper regions of the material are destroyed in the form of cracks. Tissue fluid penetrates into the cracks, leading to corrosion. Due to the hydrophilicity of the hydrogel, infection from the paranasal sinuses into the orbit is possible in case of a defect in the lower wall of the orbit with contact of the contents of the orbit with the mucosa of the maxillary sinus. Also, this method includes an incision of the soft tissues of the infraorbital region, which leads to additional cosmetic defects.

The problem solved by the invention is to increase the level of social and medical rehabilitation by eliminating bone injuries and deformations of the orbit and restoring the normal position and function of the eyeball.

The problem is solved using the proposed method for the manufacture and installation of endoprostheses from porous titanium nickelide, and an individual endoprosthesis is made on the basis of anthropometric measurements and spiral computed tomography data and is installed through an incision along the transitional fold of the vestibule of the oral cavity, separating soft tissues of the face to the lower edge of the orbit and releasing the medial, lower and lateral walls of the orbit, the endoprosthesis is carried out in the formed tissue tunnel and installed in the prepared th bed.

The authors did not find in the literature analyzed by them the given set of distinctive features leading to the solution of their task. The method has passed a clinical trial at the Oncology Research Institute of the Tomsk Scientific Center SB RAMS.

Thus, the proposed technical solution meets the criteria of the invention: "novelty", "inventive step", "industrial applicability".

The essence of the method is as follows: individual endoprostheses are made of a porous titanium nickelide plate 0.3-0.8 mm thick. This thickness of the plate is selected experimentally, based on the conditions of strength of the plate and the required radius of rounding.

In the manufacture of the endoprosthesis, the anthropometric data of the patient and the data of spiral computed tomography, which is performed in axial, coronary and frontal projections, are taken into account. In order to preserve the lacrimal-nasal canal from damage by an endoprosthesis in the orbital section of the latter, a material was excavated in the form of an elongated cut 1-2 mm larger than the size of the lacrimal-nasal canal. The finished endoprosthesis is sterilized in a dry oven at a temperature of 160 ° C for 40 minutes. The implant is installed through an incision along the transitional fold of the vestibule of the mouth. The soft tissues of the face are separated to the lower edge of the orbit and the lower wall of the orbit is released on the area necessary for prosthetics. Perform an audit with the removal of bone fragments if necessary. The endoprosthesis is carried out in the formed tissue tunnel and installed in a pre-prepared bed. A smooth bone surface is previously turned into a rough one with a tool for a more snug fit of the endoprosthesis to the bone and stimulation of the formation of a bone sleeve. The postoperative wound is sutured with catgut sutures.

We offer a specific example of the method.

Wagner I.M., 45 years old. The history of the disease №129872. Clinical diagnosis: Post-traumatic deformation of the bones of the facial skeleton and soft tissues of the face on the left.

Objectively: the left half of the face is deformed due to a previous injury. Above the left eyebrow and nose bridge a hypertrophic scar of irregular shape. The upper eyelid is pulled up (scarring). The left palpebral fissure is wider than the right. The lower eyelid is deformed due to cicatricial changes in the outer corner of the eye. According to spiral computed tomography, lines of fractures of the frontal bone, zygomatic bone on the left, the lower lateral orbit wall and the bones of the external nose are determined. The left eyeball is below the right, enophthalmos. The movements of the latter are limited upward, weak convergence.

10/05/04. Endoprosthetics of the lower wall of the left orbit by the proposed method.

A patient is examined using spiral computed tomography. They study the level and prevalence of damage to the walls of the orbit. Anthropometric measurements are made (height and width of the eye socket, distance from the outer corner of the eye socket to the midline). Based on the data obtained, an individual endoprosthesis is made from a plate of porous titanium nickelide 0.3-0.8 mm. The latter is sterilized in a dry oven at a temperature of 160 ° C for 40 minutes.

Next, the implant is installed through an incision along the transitional fold of the vestibule of the mouth. The soft tissues of the face are separated to the lower edge of the orbit and the lower wall of the orbit is released on the area necessary for prosthetics. Perform an audit with the removal of bone fragments if necessary. The endoprosthesis is carried out in a tissue tunnel and installed in a pre-prepared bed. The postoperative wound is sutured with catgut sutures.

As a result of treatment, it was possible to raise the left eyeball to the level of the right one, eliminate enophthalmos, and increase the range of motion of the eyeball. Immediately after discharge, the patient began his previous work.

Features of the behavior of titanium nickelide in body tissues, such as: bioadhesiveness, which characterizes the ability of the implant material to bind to proteins without substantially changing their structure, without causing immune reactions and inflammatory processes; the ability to change its shape without the participation of the plastic component of the deformation in the conditions of alternating deformation of tissues, allow us to consider the latter as the most suitable for use as materials implanted in the human body. The porous structure of the implant can solve the fixation problem with the satisfaction of compatibility requirements. In this case, two methods of bonds between the implant and living tissue are created: mechanical adhesion as a result of tissue germination in the pores of the implant and chemical bonding due to the interaction of the tissue with the components of the elemental composition of the implant.

The manufacture of endoprostheses from porous titanium nickelide, taking into account the severity and prevalence of deformation of the bones of the facial skeleton, allows to reduce the time of surgery and increase the accuracy of the latter. The biological inertness and the porous structure of the material of the endoprosthesis contributes to better integration of the prosthesis with surrounding tissues, which prevents its displacement or rejection.

Features of the behavior of titanium nickelide implanted in body tissues, as well as the use of the proposed method for installing an endoprosthesis without incisions on the face, contribute to the improvement of the cosmetic and functional effect of treatment, increase the level of social and medical rehabilitation of patients.

The proposed method treated 4 patients. The results of treatment Wagner I.M., 45 years old, are presented in the table.

Before surgery After operation od os od os Visual acuity 0.8 1,0 0.8 1,0 Character view from 5 meters binocular binocular Determination of the position of the eyes on the synoptophore OS angle down 10 °, out 8 ° Correct eye position in orbit Exophthalmometry 16 13 16 16 Hypophthalmometry Displacement of the left eyeball down 2 mm Eyeballs are on the same level Fields of View:

Claims (1)

A method of prosthetics of the orbit walls by manufacturing and installing endoprostheses from porous titanium nickelide, characterized in that an individual prosthesis is made on the basis of anthropometric measurements and spiral computed tomography data and is installed through an incision along the transitional fold of the vestibule of the oral cavity, separating soft tissues of the face to the lower edge of the orbit and releasing the medial, lower and lateral walls of the orbit, the endoprosthesis is carried out in the formed tissue tunnel and installed in the prepared l same.