RU185842U1 - SUPPORT FOR CHIN when carrying out a cone-beam computer tomography of edentulous jaws - Google Patents

Abstract

The proposed utility model relates to medicine, namely to diagnostic devices, and can be used in dentistry when performing cone beam computed tomography of the maxillofacial region, in particular in patients with complete loss of teeth. The support is made of solid polymer material in the form of a symmetrically curved T-shaped in the frontal plane of the plate, placed in the bite block of a cone-beam computed tomograph. At the lower end of the outside of the support are recesses for adjusting its height. The support has a L-shaped in the sagittal plane, the upper part of the support is made in the form of a platform for emphasizing the chin. Platform height 6 mm and width 38 ± 2 mm. The proposed utility model allows to increase the accuracy of diagnosis of diseases of the maxillofacial region when using cone beam computed tomography in patients with complete loss of teeth, accompanied by a decrease in the height of the bite. Pictures taken using this support are multi-informative, and can be used to diagnose retention cysts, neoplasms of the upper and lower jaws, the degree of atrophy of the alveolar processes of the upper jaw, the alveolar part of the lower jaw, the remains of filling material in the bone tissue, mandibular canals and maxillary grooves ; to determine the topography of the mandibular canal; determining the thickness of the contact plate; to determine bone volume when planning implantation.

Description

The proposed utility model relates to the field of medicine, namely to diagnostic devices, and can be used in dentistry when performing cone beam computed tomography of the maxillofacial region, in particular in patients with complete loss of teeth.

Cone beam computed tomography (CBCT) is one of the varieties of computed tomography that is widely used in dentistry to diagnose diseases of the maxillofacial region.

Obtaining a high-quality image of all the anatomical structures of the maxillofacial region largely depends on the accuracy of patient positioning. In this case, devices limiting the movement of the head — forehead, lips, chin, and cephalostats — help the radiologist.

Sirona offers the chin support in the Gallileos Comfort CT scanner in the form of a bracket that fixes the lower jaw in the area of the front teeth. The height of the bracket is adjustable.

The main disadvantage of the known device is that with the complete loss of teeth of the lower jaw, the bracket loses emphasis, and fixing the head becomes impossible. (Sirona Dental Systems GmbH. GALILEOS Comfort Operating Instructions; www.sirona.ru).

The PLANMECA ProMax Dimax3 / 3D computer tomograph has a chin stand in its configuration when performing CBCT in patients with complete tooth loss.

The main disadvantage of this device is the unregulated installation height of the support. As a result of the loss of height of the lower third of the face, a section of the bone tissue of the lower jaw, in the chin area, may not fall into the area of a computer tomogram (Planmeca ProMax Dimax 3 / 3D User Guide; www.planmeca.com).

When performing CBCT on patients with complete tooth loss on a digital panoramic X-ray apparatus CRANEX Novus, a lip support is used.

However, the support is installed in the upper lip, the patient’s chin is not fixed from below. With complete loss of teeth in the upper jaw, the upper lip loses support and reliable fixation of the patient in a CT scan becomes impossible (CRANEX Novus. Digital Panoramic X-ray. Unit User's Manual. Number 200409 ver. 3 (0702); www.kraneksstom.ru).

CBCT PaX-i3D "GreenCT" has several types of devices for fixing the head: a bite block and a chin support for images of the temporomandibular joint (TMJ).

However, the bite block is not intended for images of the edentulous jaws, as due to the lack of teeth it becomes impossible to bite the bite block plate with the front teeth.

TMJ support of the chin is not applicable for jaw shots. Using this support, only TMJ images are obtained with part of the temporal bone, upper jaw, and the alveolar part, body and chin of the lower jaw do not fall into the area of a computer tomogram (PaX-i3D Green User Manual (PHT-60CFO); www.vatech.co .kr).

As a prototype, a chin support was selected for cone beam computed tomography of the maxillofacial region, used in the PaX-i3D Green CT computer tomograph (utility model patent No. 174690), made of a solid polymer material in the form of a symmetrically curved plate, located in the bite block of a cone beam computed tomograph. The support is made in the form of a T-shaped plate curved in the frontal plane along its entire length, at the lower end of the outer side of which there are recesses for adjusting its height.

A disadvantage of the known device is that the patient’s chin is not mounted on this support, the support only fixes it in the sagittal plane. As a result, in the CBCT image, the lower part of the chin does not fall into the area of a computer tomogram (Fig. 6). This is especially pronounced with complete loss of teeth, when the height of the lower third of the face is reduced and the chin projects forward.

The objective of the proposed utility model is to improve the device.

EFFECT: increased accuracy of diagnosis of diseases of the maxillofacial region when using cone beam computed tomography in patients with complete loss of teeth.

The technical result is achieved by the fact that the support is made of solid polymer material in the form of a symmetrically curved, T-shaped in the frontal plane of the plate, placed in the bite block of a cone-beam computed tomography scanner, at the lower end of the outer side of which there are recesses for adjusting its height, the support is L-shaped in the sagittal plane, the upper part of the support is made in the form of a platform for emphasizing the chin, the height of the platform is 6 mm and the width is 38 ± 2 mm.

It is advisable to perform a removable chin support with the ability to connect with a cone-beam computed tomograph using recesses for adjusting the height, fixing the support fastening in the tomograph and allowing its height to be adjusted relative to the individual anatomical features of the patient.

It is advisable to make a support in the form of a symmetrically curved T-shaped plate in the frontal plane, and with a radius of curvature of 120 mm, to achieve the optimal position of the patient’s head when taking a CBCT image.

It is advisable to use CBCT images taken with the help of a known support in order to diagnose pathological processes in the maxillofacial region.

It is advisable to support the chin from a solid polymer non-radiopaque material (plastic, plastic, etc.).

The essence of the utility model is illustrated by graphic material.

FIG. 1. Diagram of the support for the chin during CBCT of the edentulous jaws (front view).

FIG. 2. Diagram of the support for the chin during CBCT of the edentulous jaws (side view).

FIG. 3. Diagram of the support for the chin during CBCT of the edentulous jaws (top view).

Tab. 1. Overall dimensions of the device.

FIG. 4. Photo of the support for the chin during CBCT of the edentulous jaws (appearance).

FIG. 5. Photo of the patient’s head fixed in a cone beam tomograph for CBCT imaging using this chin support.

FIG. 6. CBCT image of a patient with complete loss of teeth of the lower jaw without using this support. Part of the lower jaw does not fall into the area of a computer tomogram.

FIG. 7. CBCT image of a patient with complete loss of the teeth of the lower jaw, made using this chin support. The lower jaw entirely falls into the area of a computer tomogram.

The proposed device is a symmetrically curved T-shaped plate in the frontal plane with a radius of curvature of 120 mm (Fig. 1). The lower part of the plate is inserted into the socket for supporting the tomograph. On the outside of the bottom of the plate are recesses for additional increase and height adjustment. The support is L-shaped in the sagittal plane (Fig. 2). The upper part of the device is made in the form of a platform for stopping the chin (Fig. 3), fixes the patient’s head, and lifts it to a certain height. The level of installation of the chin depends on the individual characteristics of the patient, the degree of atrophy of the alveolar processes, the alveolar part and the decrease in the lower part of the face. The height of the platform h is 6 mm. The width of platform B corresponds to the average size of the width of the chin and is 38 ± 2 mm.

The proposed device operates as follows. The support for the chin is installed in the socket for supporting the cone-beam computed tomograph, adjusting the installation height up / down. The patient’s head is placed with the chin on the upper part of the support; if necessary, the height of the support is adjustable. Further, the head is fixed with regular temporal holders of a PaX-i3D "GreenCT" computer tomograph. The position of the head is adjusted accordingly by laser markers and a CBCT image is taken. A CT scan with complete loss of teeth is performed in a state of functional rest of the jaws.

The proposed utility model meets the criterion of “novelty,” since the patent information research conducted did not reveal the sources of scientific, technical, and patent information that would discredit the novelty of the proposed device.

The proposed utility model meets the criterion of “industrial applicability”, as it can be used in cone-beam computed tomography imaging of the jaws with complete loss of teeth.

The proposed utility model is economically feasible, since it is simple and cheap to manufacture, does not require expensive materials to manufacture.

A useful model is needed when taking a CBCT image for diagnosing diseases of the maxillofacial region, made on a PaX-i3D "GreenCT cone-beam computed tomography scanner. The technical result is to increase the accuracy of diagnosing diseases of the maxillofacial region of the patient during CBCT imaging.

Pictures taken with the use of this support are multi-informative and can be used to diagnose retention cysts, tumors of the upper and lower jaws, the degree of atrophy of the alveolar processes of the upper jaw, the alveolar part of the lower jaw, the remains of filling material in the bone tissue, the mandibular canals and maxillary sinuses; to determine the topography of the mandibular canal; determining the thickness of the contact plate; to determine the volume of bone tissue when planning implantation, etc.

The proposed utility model allows tomographic studies to be performed both in patients with intact dentitions and in patients with partial or complete loss of teeth.

Clinical example.

Patient E., 68 years old, complained of pain when using a complete removable denture of the lower jaw in the frenum of the lower lip.

From the anamnesis: according to the patient, a removable prosthesis on the lower jaw was made 8 months ago, pain when using the prosthesis occurred 2 days ago, teeth 4.1,3.1, 3.2 were removed before the manufacture of a removable prosthesis, a removable denture of the upper jaw was made 3 years ago.

Objectively:

The general state of health is satisfactory, the configuration of the face is not changed, the height of the lower third of the face is normal, the skin is clean, physiological in color, the regional lymph nodes are not palpable, the opening of the mouth is free. On palpation of the TMJ: the movement of the TMJ heads is symmetrical, synchronous without clicks, crunching. The upper jaw is prosthetized with a complete removable denture, the fixation of the prosthesis is satisfactory. The lower jaw is prosthetized with a full removable prosthesis, the fixation of the prosthesis is satisfactory. Atrophy of the alveolar part of the lower jaw is moderate in the anterior part, expressed in the lateral parts. Palpation of the transitional fold in the area of missing teeth 3.1, 3.2 painful, mucous membrane hyperemic, edematous.

Dental formula:

Bite: not fixed.

On CBCT (12 * 9): in the area of missing teeth 3.1, 3.2, a bone lesion lesion with a rounded shape with clear contours 4.0 × 4.5 mm in size. (Fig. 7).

Diagnosis: complete loss of teeth of the lower jaw (K08.1); atrophy of the alveolar part of the lower jaw (K08.2); residual root cyst of the lower jaw (K04.8).

The proposed utility model allows to increase the accuracy of diagnosis of diseases of the maxillofacial region when using cone beam computed tomography in patients with complete loss of teeth, accompanied by a decrease in the height of the bite.

Claims (1)

Support for the chin during conical beam computed tomography of the edentulous jaw, made of solid polymer material in the form of a symmetrically curved T-shaped in the frontal plane of the plate, placed in the bite block of the cone-beam computed tomography, on the lower end of the outer side of which there are recesses for regulation of its height, characterized in that the support is L-shaped in the sagittal plane, the upper part of the support is made in the form of a platform for emphasizing the chin, the height is subcontroller 6 mm, width 38 ± 2 mm.

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