RU2771506C1 - Simulator for teaching surgery on the lateralization of the inferior alveolar nerve - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medicine and can be used to develop skills in the lateralization of the inferior alveolar nerve. The simulator for teaching a surgical operation on the lateralization of the inferior alveolar nerve contains a human head phantom with interchangeable jaws. The model of the lower jaw has a channel in which an elastic wire is laid, which imitates the neurovascular bundle. The model of the lower jaw is a skeletonized lower jaw made on a thermoplastic 3D printer with areas of partial absence of teeth in the distal sections and vertical atrophy of the alveolar ridge in the edentulous areas. The height of the alveolar ridge is 7 mm to the upper wall of the mandibular canal. In the mandibular canal there is an imitation of the neurovascular bundle of three colored rubber bands of red, blue and yellow with a diameter of 0.8 mm. The tourniquets reproduce the artery, vein and inferior alveolar nerve. After retraction in the lateral direction through a hole cut in the outer wall of the body of the lower jaw, the lower lunar nerve is left on its surface sprinkled with “bone” thermoplastic chips.EFFECT: invention allows the installation of dental implants in the projection of teeth 4.5, 4.6, 4.7 to the entire height of the body of the lower jaw.1 cl, 2 dwg

Description

The proposed device relates to medicine and is used by medical professionals to practice skills in the lateralization of the lower alveolar nerve. Lateralization is the displacement of the mandibular nerve to the side in order to make room for the installation of a dental implant in the edentulous region of the jaw in patients with severely atrophied bone tissue. A patent search was conducted to determine the technical level. The following patents have been found that are similar to the use of simulators in dentistry.

- Known "Method of simulated training in prosthetics with artificial crowns" (patent RU No. 2 658 456, IPC A61C 13/00, publ. 06/21/2018)

The essence of the proposed method of simulation training is as follows. Simulation training in dental prosthetics with artificial crowns includes the use of a cap pre-made for a standard phantom model in compliance with all preparation criteria, characterized by sequential excision of tooth tissues, fitting a cap on the tooth, the inner surface of which is made in accordance with the requirements for the stump of the prepared tooth, by gradual removal the required volume of tissues for its fitting, obtaining impressions of the jaw of a dental simulator, casting a plaster model, assessing the accuracy of fitting the cap to the tooth stump on a plaster model using liquid carbon paper on the artificial tooth stump in a dental simulator using zinc phosphate cement.

This invention presents a simulation method for teaching prosthetics of teeth with artificial crowns. Our task is to create a similar simulator for teaching a surgical operation to lateralize the inferior alveolar nerve.

- Known "Hybrid dental simulator for training and accreditation in the specialization of dentistry" (patent RU No. 181376, IPC G09B23 / 28, publ. 11.07. 2018)

The essence of the proposed device is to create a simulator for the formation of manual skills in dental students. Dental simulator for training dentists, in the form of a human torso with a head phantom, in which magnetic sensors are located, a photocell for controlling the light flux and simulators of the upper and lower jaws with coded marks made to individualize educational work, moreover, a photocell for controlling the light flux is placed in the mouth cavities, and magnetic sensors are installed in the parietal and occipital parts and on the upper and lower jaws, while the sensors are configured to establish communication with dental instruments and display data on the monitor for a three-dimensional image of the dental treatment process and to change the position of the sensors.

The proposed dental simulator is intended for training, accreditation of medical workers, dentists, the formation of general knowledge of the anatomy of the human oral cavity. We need them to learn how to perform a surgical operation to lateralize the inferior alveolar nerve.

- Known "Simulator for practicing manual skills of periapical surgery" (prototype, patent RU No. 187802, IPC G09B 23/28, publ. 03/19/2019)

This simulator is designed to develop the skills of periapical surgery, which is performed by creating an access along the fistulous tract to the cyst, followed by cystectomy, root resection and retrograde tooth filling on a phantom. A simulator was created to solve this operation. It contains a human head phantom with a tripod for fixation on a dental chair. The phantom of the human head contains interchangeable jaws fixed in an articulator, and on the model of the lower jaw there is a channel for the mandibular nerve, in which a wax wire imitating the neurovascular bundle is laid, and on the model of the upper jaw there is an imitation of the Schneiderian membrane made of corrective material in the maxillary sinus. silicone impression mass; on the upper and lower jaws, fistulous tracts were formed up to a granular cyst with the possibility of performing a cystectomy, resection of the root apex, retrograde filling of the canals of the teeth on a phantom.

Disadvantages. This simulator is not intended for training in inferior alveolar nerve lateralization surgery.

The task of the proposed simulator is to provide medical workers with skills in performing a surgical operation on the lower alveolar nerve.

The presented problem is solved by the fact that the simulator for teaching a surgical operation on the lateralization of the inferior alveolar nerve contains a phantom of a human head with interchangeable jaws, and the model of the lower jaw has a channel in which an elastic wire simulating a neurovascular bundle is laid. The novelty is that the model of the lower jaw is a skeletonized lower jaw made on a 3D printer made of thermoplastic with areas of partial absence of teeth in the distal sections and vertical atrophy of the alveolar ridge in the edentulous areas, and the height of the alveolar ridge is 7 mm to the upper wall of the mandibular canal, in which an imitation of the neurovascular bundle is placed from three colored rubber bands of red, blue and yellow with a diameter of 0.8 mm reproducing the artery, vein and inferior alveolar nerve, which, after retraction in the lateral direction through a hole cut in the outer wall of the body of the lower jaw, remains on its surface sprinkled with "bone" thermoplastic chips, which allows you to install dental implants in the projection of teeth 4.5, 4.6, 4.7 to the entire height of the body of the lower jaw. The proposed device is illustrated by figures.

In FIG. 1 - General view of the simulator.

In FIG. 2 - General view of the removable lower jaw.

In FIG. 1. marked: 1 - human head phantom, 2 - replaceable upper jaw, 3 - replaceable lower jaw, 4 - stand for fixing the human head phantom.

In FIG. 2. marked: 5 - mandibular canal, 6 - rubber tourniquet imitating the neurovascular bundle, 7 - distal part of the jaw, 8 - vertically atrophied alveolar ridge, 9 - edentulous areas, 10 - upper wall of the mandibular canal, 11 - sawn hole wall of the lower jaw.

The proposed design of the simulator works as follows. The method of operation for the lateralization of the mandibular nerve involves the displacement of the mandibular nerve to the side in order to free up space for implant installation at the entire height of the body of the mandible 3, which can be achieved by moving the trunk of the mandibular nerve. Thanks to lateralization, the doctor can install dental implants in the distal parts of the jaw 7 for patients with severely atrophied bone tissue of the alveolar ridge 8 of the lower jaw.

It should be taken into account that transposition is accompanied by a significant risk of damage to the nerve sheath and its trunk, therefore, approximately half of the patients experience impaired sensitivity of the lower lip and chin at various times after surgery.

In order to prevent possible complications and develop manual skills for the transposition of the inferior alveolar nerve trunk in novice dentists-surgeons during the period of training in clinical residency, a simulator was developed for teaching a surgical operation to lateralize the inferior alveolar nerve.

Example. The proposed simulator was made, for example, at the Irkutsk State Medical University and used in the educational process in the training of medical residents.

The device was made on a 3D printer from a thermoplastic model of a skeletal lower jaw 3 with a partial absence of teeth in the distal areas 7 and vertical atrophy of the alveolar ridge 8 in the edentulous areas 9. The height of the alveolar ridge 8 is 7 mm to the upper wall 10 of the mandibular canal 5, in which imitation of a neurovascular bundle of three colored rubber bands of red, blue and yellow, 0.8 mm in diameter each, reproducing an artery, vein and inferior alveolar nerve.

To perform an operation to lateralize the inferior alveolar nerve before installing dental implants in the edentulous areas 9 of the lower jaw in the projection of teeth 4.5, 4.6, 4.7, two parallel horizontal cuts of the bone 2 cm long were performed at a distance of 5 mm from each other, starting at 3-5 mm distally from the chin hole. The cutting depth was at least 1 mm and depended on the location of the lower alveolar nerve in this area. Then the cuts were connected in the anterior and posterior sections with each other and the resulting fragment of a compact plate of bone tissue was removed, creating a rectangular bone window 11 on the vestibular surface of the body of the lower jaw 3. When preparing the bone window 11 and further working with the nerve, diamond burs were used, as well as piezo surgical instrument as it provides maximum soft tissue safety and reduces the risk of nerve irritation.

After removal of the compact lamella, the nerve was isolated from the cancellous bone. For this procedure, special curved curettes or a diamond-coated piezo surgical handpiece were used. The isolated nerve was pulled to the side with a rubber band (glove rubber) or an elastic silicone loop (Ethiloop - Ethicon). After that, the implants were installed in the projection of the teeth 4.5, 4.6, 4.7 according to a known method.

To ensure the primary stability of dental implants during the preparation of the bed, a sufficient amount of bone was left on the vestibular side. If this condition is not met, the vestibular bone plate may break during implant placement. With a sufficient length of the bone defect - the bone window 11 must be filled with bone chips and hydroxyapatite. The nerve trunk was then left in a new position, in the area of the outer edge of the jaw.

surgical procedure

After exfoliation of the mucoperiosteal flap, the mental foramen became visible, which made it possible to navigate during the preparation of the bone window. The horizontal cut of the bone was started 3-5 mm distally from the mental foramen. The depth of the cut depended on the location of the lower alveolar nerve in this area. When preparing the bone window and further working with the nerve, diamond burs or a piezosurgical instrument were used, since it provides maximum soft tissue safety and reduces the risk of nerve irritation. After removal of the compact plate from the cancellous bone, the nerve was isolated. For this procedure, special curved curettes or a diamond-coated piezo surgical handpiece were used. The exposed nerve was then pulled to the side with a rubber band (glove rubber) or an elastic silicone loop.

After that, the installation of dental intraosseous implants was performed according to a known method. To ensure their primary stability during the preparation of the bed, a sufficient amount of bone was left on the vestibular side. If this condition is not met, the vestibular bone plate may break during implant placement. With a sufficient length of the implant, the preparation of a compact plate from the opposite side is also indicated. After the nerve was repositioned, the cavity was filled with bone chips obtained from the preparation of a compact plate. The filled cavity was closed with a collagen membrane (Bio-Gide - Geistlich Biomaterials), which was secured with pins (Frios MembrannKgel - DENTSPLY Friadent). The wound was carefully sutured with separate interrupted sutures (Ethibond Excel 4-0 - Ethicon). After three months, during which the surgical site should not be irritated, a fixed prosthesis can be installed.

Claims (1)

A simulator for teaching a surgical operation on the lateralization of the inferior alveolar nerve, containing a phantom of a human head with interchangeable jaws, and the model of the lower jaw has a channel in which an elastic wire is laid, simulating the neurovascular bundle, characterized in that the model of the lower jaw is a 3D model skeletonized lower jaw with areas of partial absence of teeth in the distal sections and vertical atrophy of the alveolar ridge in the edentulous areas, and the height of the alveolar ridge is 7 mm to the upper wall of the mandibular canal, in which an imitation of the neurovascular bundle of three colored red rubber bands is placed , blue and yellow in color with a diameter of 0.8 mm, reproducing the artery, vein and inferior alveolar nerve, which, after retraction in the lateral direction through a hole cut in the outer wall of the body of the lower jaw, is left on its surface sprinkled with "bone" shavings from thermoplastic pastic, which allows you to install dental implants in the projection of the teeth 4.5, 4.6, 4.7 to the entire height of the body of the lower jaw.

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