RU2714119C1 - Method for temporary auricle prosthesis for period of postoperative formation of external acoustic meatus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, particularly to otorhinolaryngology (otosurgery) and dentistry, and is intended for use in temporary prosthetics of absent concha in microtia and anotia and formation of postoperative auditory canal in stenosis and atresia. That is followed by computed tomography of the patient's head with absent (anotia) or undeveloped (microtia) auricle. Three-dimensional image of auricle is isolated from computer tomogram and external and internal auditory passages "from healthy side". Obtained file is converted into a digital CAD\CAM module of the system. Absenting auricle and parameters of external acoustic meatus are modeled by mirror image rotation of structures of the opposite side. Cuffs of adjoining to the prosthetic field are formed. Obtained image is reduced along the entire surface by 0.5 mm, 3D print of the postoperative ear prosthesis is made from a medical polymer. Obtained polymeric composition of the ear prosthesis is coated with a layer of medical silicone 1–2 mm thick by a layer of the ear canal, by layer-by-layer application. Transmastoid approach of external auditory canal is formed with diameter corresponding to auditory passage diameter of manufactured prosthesis with skin flaps laid to bone edges of trepanation cavity. Forming ear prosthesis is fixed with introduction of a part of the prosthesis in the formed surgical canal corresponding to the auditory passage of the patient, due to silicone adhesive applied on the cuff, and qualitative marginal adjunction of the temporary auricle prosthesis to the skin. Postoperative shaping auricle prosthesis is used for 6 months in the postoperative formation of the ear canal, with daily fixation and hygienic treatment with antiseptic preparations recommended by the manufacturer of the medical silicone.

EFFECT: method ensured by using a prosthesis of the patient's mirror reproduced ear allows forming a separate ear canal in the postoperative period in the patients with atresia.

1 cl, 1 dwg

Description

The invention relates to medicine, in particular to otorhinolaryngology (otosurgery) and dentistry, and can be used for temporary prosthetics of an absent auricle with microtia and anotia, and the formation of a postoperative external auditory canal with stenosis and atresia.

The prior art method of surgical treatment of congenital malformations of the external and middle ear, including anthroatticotomy tympanoplasty, ossiculoplasty, the formation of the external auditory meatus (see Lapchenko SN "Congenital malformations of the external and middle ear and their surgical treatment", Medicine, Moscow 1972, pp. 111-123).

There is also known a method of surgery for atresia of the external auditory canal, including the formation of the external auditory canal, in which a posterior incision is made to the bone at the transitional fold and a plastic flap is created (see “Guide to Otorhinolaryngology”, edited by V.I. Voyachek, B. S. Preobrazhensky, Medicine, Moscow, 1960, pp. 353-354). A known method of surgery for atresia of the external auditory canal, including the formation of a transmastoid approach of the external auditory canal, characterized in that ossiculotimpanoplasty is performed by mobilizing the ossicular apparatus of the middle ear by expanding the tympanic cavity with the formation of a gap between the walls of the tympanic cavity and auditory ossicles of at least 1 mm, formation non-tympanic membrane from the fascia of the temporal muscle, fixation of skin flaps to the bone edges of the trepanation cavity, and in the early in the operational period, 4% Na-CMC gel is used (RF Patent No. 2426500 of 08/20/2011).

The prior art method of plastic surgery of the external auditory canal with the formation of the tragus of the auricle by forming an anatomical structure, characterized in that they form the external auditory canal with the simultaneous creation of the tragus of the auricle, while creating two skin flaps: the first is a skin-cartilaginous flap cut out from the upper the poles of the rudiment of the auricle and move to simulate the tragus, and the second - the skin flap on the leg from the mastoid region is moved to plastic the newly created ear canal and wound defect, which is formed during mobilization of the rudiment of the auricle, which allows one step to reduce the treatment time (Patent No. 2255678 of 07/10/2005).

A known method of surgery for atresia of the external auditory canal, including the formation of the external auditory canal, the walls of which are covered with fragments of compressed cartilage taken from the rudiment of the auricle, is lined with skin grafts from the donor zone in the behind-the-ear area (Mattox DE, Fisch U. Surgical correction of congenital atresia of the ear. Otolaryngol Head Neck Surg 1986; 94, 574-577).

The disadvantages of this method include the arbitrariness of the formed geometry of the ear canal, as well as the risk of its stenosis due to the development of the granulation process.

A known method of manufacturing an auricle prosthesis, including obtaining a wax template for an auricle prosthesis in a reusable collapsible die pre-made of gypsum, fitting a wax prosthesis template on a patient’s face in a seat, subsequent processing of the wax template by forming an individual relief on it to obtain a wax copy the prosthesis, which is then gypsum in the cuvette, replace the wax with silicone, remove the obtained silicone prosthesis from the cuvette, grind it (Patent No. 2421188 dated 06/20/2011 g).

An endoprosthesis of the ear is known which is a synthetic base manufactured by digital prototyping with computer simulation of the cartilaginous structure of the external auricle and subsequent milling on a numerically controlled machine; having a surface from the congruent abutment field with high accuracy of coincidence with the abutment field, as a result of which its base is individual, completely congruent to the receiving bed and acts as the inner frame of the auricle. An individual reconstructive endoprosthesis for otorhinolaryngology, made by digital prototyping, consists of a porous biosynthetic material and has a surface with a high accuracy coinciding with the adjoining field from the side of the congruent adjoining field. Due to the use of computer modeling and milling on a machine with numerical control, the reconstructive individual endoprosthesis for otorhinolaryngology has a three-dimensional structure. With high accuracy repeats the cartilage base of the external auricle, the surface of the base of the endoprosthesis is completely congruent with the receiving abutment field. It not only allows you to completely restore the missing part of the outer ear or the completely lost auricle as a result of injuries, burns, oncological diseases, but also is reliably fixed, acting as the inner frame of the auricle. It does not require additional screw retainers (Education and science in modern conditions: materials of the VIII International scientific and practical conference. (Cheboksary, June 26, 2016) / editorial: ON Shirokov [et al.]. - Cheboksary : Central nervous system “Interactive plus”, 2016. - No. 3 (8). - 31-34 s).

A known method for prosthetics of the auricle consists in conducting a computer tomogram of the patient’s head with a missing auricle, converting the resulting image of an existing ear into a digital CAD / CAM system module, followed by digital modeling of the missing auricle by mirror rotation and forming the border of fit to the prosthetic field, translating the resulting digital models of the prosthesis of the auricle into a physical polymer prototype model through 3D printing, separation of the diamond tooth The clinical disk of the prototype of the auricle prosthesis is divided into two parts: the “auricle” and the “prosthesis base”, then the “auricle” and the “prosthesis base” are separately installed in a dental cuvette and filled with a duplicate dental silicone, after polymerization of which the prototype is removed and obtained the mold under pressure in a vacuum is filled with medical dental silicone, the parts of the auricle prosthesis obtained are processed from excess material and are individualized with medical paints, then, along the connection line of the prosthesis components, holes are drilled coaxially to each other on the end surface to install fixing elements made of rigid dental polymer having a round flat base, a neck and a hemispherical head, the edges of the hemispherical head are made wired, and the diameter of the holes is half the diameter heads and bases of fixing elements, after which the “auricle” and “base of the prosthesis” are connected by means of these fixing elements, then the prosthesis of the auricle is fixed to the tissues of the prosthetic bed of the patient by means of medical glue (RF Patent No. 2637602 of 05.12.17).

The problem to which the invention is directed is the accurate individual reproduction of an absent auditory meatus and temporary prosthetics for the period of its formation. The technical results of the invention is the manufacture of a prosthesis for a mirror-reproduced ear of a patient, allowing the formation of an individual auditory canal in the postoperative period in patients with atresia.

The technical result of the invention is achieved by the fact that the method of temporary prosthetics of the auricle for the period of postoperative formation of the external auditory canal consists in obtaining a computer tomogram of the head, isolating on it a three-dimensional image of the patient's external and internal auditory canal from the “healthy side”, with subsequent conversion the resulting file into the digital module of the CAD \ CAM system, modeling the missing auricle and ear canal by mirror image rotation the formation of the structures of the opposite side and the formation of the cuff of the border adjacent to the prosthetic field, the reduction of the obtained image over the entire surface by 1-2 mm, followed by its 3D printing from a medical polymer, coating the obtained polymer composition of the ear prosthesis with an auditory meatus with a layer of medical silicone 1- 2 mm by the method of layer-by-layer application, the formation of a transmastoid approach of the external auditory canal with a diameter corresponding to the diameter of the analogue of the auditory canal of the manufactured prosthesis with laying m skin grafts to bone edges burr cavity and fixing a temporary prosthesis of the ear, with the introduction channel formed operational portion of the prosthesis corresponding to the patient's auditory canal, by a silicone adhesive applied to the cuff temporary prosthesis pinna adjacent to the skin. The use of computed tomography data of the patient’s preserved natural auricle and ear canal and the use of modern additive 3D printing technologies make it possible to accurately reproduce the planned anatomy of the auditory canal, in case of its congenital absence or acquired infection, which is physiological.

The manufacture of the prosthesis from a solid polymer prevents the shaper from being deformed, and the external coating of the prosthesis with silicone provides painless use and high hygiene every day, and prevents the formation of scars during the postoperative formation of the external auditory meatus.

The component of the ear prosthesis is the auricle, which provides a high degree of social adaptation of the patient in the postoperative period.

The method of temporary prosthetics of the ear for the period of formation of the ear canal is illustrated by the drawing, where in FIG. 1:

1. An ear prosthesis forming a postoperative external auditory meatus.

2. The auricle of the ear prosthesis, forming the postoperative external auditory canal.

3. Shaper of the external auditory meatus.

4. Cuff border of the fit of the prosthesis to the prosthetic bed

The method of temporary prosthetics of the ear for the period of formation of the ear canal using the proposed device is as follows:

1. A CT scan of the patient’s head with an absent (anotia) or underdeveloped (microtia) auricle is performed,

2. Isolation from a computer tomogram of a three-dimensional image of the auricle of the external and internal auditory meatus “from the healthy side”.

3. Converting the resulting file to a digital module CAD / CAM system.

4. Modeling of the absent auricle (2) and parameters of the external auditory meatus (3), by mirror image rotation of the structures of the opposite side.

5. The formation of the cuff (4) of the border adjacent to the prosthetic field.

6. Reduction of the obtained image over the entire surface by 0.5 mm.

7. 3D printing of the postoperative shaping ear prosthesis (1) from a medical polymer.

8. Coatings of the obtained polymer composition of the ear prosthesis (1) with the formed auditory meatus (3), a layer of medical silicone with a thickness of 1-2 mm by the method of layer-by-layer application.

9. The formation of the transmastoid approach of the external auditory canal with a diameter corresponding to the diameter of the auditory canal of the manufactured prosthesis with the laying of skin flaps to the bone edges of the trepanation cavity.

10. Fixation of the forming prosthesis of the ear (1), with the introduction of the part of the prosthesis (3) corresponding to the auditory meatus of the patient into the formed operating channel due to silicone glue applied to the cuff and high-quality edge fit of the temporary prosthesis of the auricle to the skin.

11. The use of the postoperative forming prosthesis of the auricle (1) for 6 months during the postoperative formation of the auditory meatus, with daily fixation and hygienic treatment with antiseptic drugs recommended by the manufacturer of medical silicone.

Claims (1)

A method for temporary prosthetics of the auricle for the period of postoperative formation of the external auditory canal consists in obtaining a computer tomogram of the head, extracting on it a three-dimensional image of the existing external and internal auditory canals of the patient’s ear from the “healthy side”, followed by converting the resulting file into a digital CAD / CAM module of the system modeling a missing auricle and ear canal by mirror image rotation of structures of the opposite side and the formation of m profiles of the border adjacent to the prosthetic field, reduction of the received image over the entire surface by 1-2 mm, followed by 3D printing from a medical polymer, coating of the obtained polymer composition of the ear prosthesis with an ear canal with a layer of medical silicone 1-2 mm thick by layering, the formation of a transmastoid approach of the external auditory canal with a diameter corresponding to the diameter of the analogue of the auditory canal of the manufactured prosthesis, with skin flaps being laid to the bone edges of the trepanation minute and fixing a temporary prosthesis of the ear, with the introduction channel formed operational portion of the prosthesis corresponding to the patient's auditory canal, by a silicone adhesive applied to the cuff temporary prosthesis pinna adjacent to the skin.

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