BR202014015786Y1 - LONGITUDINAL INTRA-ORAL RADIOGRAPHY POSITIONER - Google Patents

Abstract

intraoral positioner standardizing longitudinal radiographs. the present utility model refers to an intraoral longitudinal x-ray standardizing positioner (pr) (1) that allows subsequent images to be taken with the same geometric position, it allows the geometric standardization between the positioner and the x-ray machine and between the positioner and the radiographed area, allowing to reproduce, in geometric terms, a periapical or interproximal dental radiography at different times, but with the differential of maintaining a fixed coordinate system over time. in addition, it allows the generated radiographs to be analyzed using the radiographic subtraction technique, fractal analysis, or any other that identifies very subtle changes that may occur over time in the oral cavity during the interval of the radiographs, without they can be detected by the human eye.

Description

“LONGITUDINAL INTRA-ORAL RADIOGRAPHY POSITIONER

FIELD OF THE INVENTION [1] The present utility model falls within the field of application of dentistry, more specifically, devices for radiation diagnosis applied and / or adapted to dentistry, since it refers to a longitudinal standardizing intraoral positioner of radiographs that allow subsequent images to be taken with the same geometric position, due to the invention providing repeatability and reproducibility in radiographic shots.

BACKGROUND OF THE INVENTION [2] There are already some options for intraoral positioners on the market, such as those produced by the company Indusbello and the company Maquira. Both products seek radiographic standardization, but their limitations are to reproduce periapical and interproximal radiographs, at different times, in the same geometric position between the positioner and the region to be radiographed. The products mentioned only allow the standardization of the geometric distances between the positioner and the X-ray machine. The lack of standardization of the geometric position between the positioner and the region to be radiographed does not allow the repeatability and reproducibility of radiographic images, therefore it does not allow their use to perform radiographic techniques that require subsequent standardized images, such as the radiographic subtraction technique, or fractal analysis, which require geometric standardization between both, the distance from the positioner and the X-ray apparatus and between the position of

Petition 870190136374, of 12/19/2019, p. 8/24

2/15 positioner and the region to be radiographed, that is, a coordinate origin that is always fixed between the different radiographic shots over time, to always have a reference or comparison basis.

[3] Radiographically, for any type of alteration of the mineral constituent of the bone, or of the tooth, to be detected subjectively by the human eye, a modification of its constituents in the order of 30 to 50% is necessary. But this order of modification can be very harmful, as it triggers a problem that is no longer incipient.

[4] In the radiographic subtraction technique, images from two radiographs taken at different times, but with the same coordinate or reference system, are digitally subtracted, so that the structures present in both are removed and the resulting image presents only the difference between them, that is, it displays only the image of the mineral reduction or addition, allowing the objective detection of changes in the order of 1 to 5%. In the technique of fractal analysis, which has been used in dentistry to assess the complexity of bone trabeculation, for the diagnosis of osteopenia and osteoporosis, the use of standardized images would allow the detection of morphological changes in the microarchitecture of the bone trabeculate that are undetectable in radiographic exams intraoral evaluating radiographs without standardization performed at different times.

[5] The use of these image analysis techniques only contributes favorably to Dentistry, as well as in any area of radiology, as it allows

Petition 870190136374, of 12/19/2019, p. 9/24

3/15 diagnosis of incipient changes, subjectively undetectable by the human eye.

[6] The great difficulty in using these image analysis techniques as a common procedure, whether in the clinic or in research, is due to the lack of a device that allows, in a simple and comprehensive way, the preparation of periapical radiographs. and geometrically identical interproximals at different times.

STATE OF THE TECHNIQUE [7] Patent application US5473662 refers to a radiographic positioner that generates periapical radiographs that can be analyzed using the radiographic subtraction technique. However, its use is limited, since it only allows obtaining standardized images of dental implants during their healing phase, or implants rehabilitated with screwed crowns, since the device must be screwed directly on the implant installed in the oral cavity .

[8] Patent application US509047 describes a radiographic positioner system for repositioning radiographic films for intraoral diagnosis. It can be applied in the repositioning of the film with precision, however, the object of the referred document does not take into account another important characteristic which is the bisector technique and proves inefficient due to the need to keep the whole set of the bite registration and the block of bite. In the present utility model, only records with the appropriate supports should be kept.

Petition 870190136374, of 12/19/2019, p. 10/24

4/15 [9] A radiographic positioner with rigid fixation, provided with an individualized film device for each patient, is described in patent application MU 8300979-5 comprising a round-shaped clamp, the opening and closing of which are made by two adjustable shoes by screw and thread, in which two common radiography devices are coupled to the radiographic cylinder. Attached to the opposite side of the shoes, is the radiological positioner (PR), whose metal rod has two perpendicular folds, with two pins at its end for coupling, the individualized film device (DFI) for each patient, has two holes, which they are coupled to the PR pins, which have a body provided with upper and lower flaps, having a nail-shaped support at its adjacent end, where the radiographic film is placed. Being that in use, the dental surgeon places dental resin on the upper and lower flaps of the DFI and thereby promotes the rigid fitting of the patient's teeth in it, forming an impression of the teeth, which are stored for future radiography. However, to obtain the registration of the supporting teeth, the method of fixing the DFI to the PR is deficient, not guaranteeing the positioning and parallelism of the film with the radiographed tooth, since the present Utility Model (MU) has a guide for interocclusal registration in one piece, with sliding inserts in the PR, which provide greater stability and precision. In addition, the present MU has two rings for fixing the PR in the tube of the X-ray machine. These two aspects enable greater rigidity of the entire PR set and thus lead to better accuracy in the

Petition 870190136374, of 12/19/2019, p. 11/24

5/15 repetition of subsequent images taken. It is worth mentioning that the present MU also has a millimeter rod, for individualizing the distance between it and the area to be radiographed.

[10] Patent application PI08053430 relates to a radiographic film positioning device and a process for obtaining radiographic images that is equipped with three sets for positioning the radiographic film, which comprises at least one means of association with a radiographic support. substantially perpendicular to a bone portion of the patient. However, such a device cannot maintain a fixed coordinate system over time to allow the radiography to be analyzed using the radiographic subtraction technique.

[11] Patent applications MU83018042, and MU 88021866, describe a driver that allows radiographic images to be taken in patients with the dental arch under absolute isolation, from a structure developed with anatomical shape that allows it to be accommodated inside of the mouth, under the dental arch isolation blanket (rubber sheet), in order to position the fixing base of the radiographic film in parallel with the isolated tooth and to anchor the jaw so that it does not move when taking the image, as well how to direct the ampoule of the radiographic equipment that emits the X-ray waves at the exact point, the constructive solution being the use of a bite block inferior to the structure and a cutout at the base of the radiographic film, in order to create sufficient physical space to compensate for the part of the file or cone that exceeds the crown of the tooth, and that provides a stem to

Petition 870190136374, of 12/19/2019, p. 12/24

6/15 from which the same structure can be stabilized by manual intervention. However, they do not allow the repetition of subsequent images taken for the radiographic subtraction technique, as they do not have a fixed coordinate system over time and, therefore, do not conflict with the present invention.

[12] Patent application MU72011297 relates to a standardizing device for dental interproximal radiographs that comprises two positioning plates of the common periapical radiographic film, in the anterior portion; by a triangular elevation capable of standardizing the position of the device in the patient's mouth in the intermediate portion; and a thin bar angled in relation to the anterior and intermediate portions; and by two semicircles parallel to each other and joined to the bar, and by a smaller bar, perpendicular to the previously described, which standardize the placement of the positioning cylinder of dental X-ray devices. However, despite having semicircles for coupling to the x-ray machine, they do not allow the repetition of subsequent images taken for the radiographic subtraction technique, as they do not have a fixed coordinate system over time.

OBJECTIVE AND ADVANTAGES OF THE INVENTION [13] The present utility model is innovative in the sense of providing repeatability and reproducibility in radiographic shots to solve the problems mentioned above. Thus, it will provide significant advantages in relation to intraoral positioners and state-of-the-art radiographic methods, which require longitudinally standardized images,

Petition 870190136374, of 12/19/2019, p. 13/24

7/15 enabling an increase in its performance and presenting a more favorable cost / benefit ratio.

[14] The present utility model also has the advantage of understanding a device that allows to attend to all cases of periapical or interproximal radiographs in dentate, partially dentate or rehabilitated patients with implants when the need for monitoring and / or evaluation and conduct for treatment dental or other health treatment.

BRIEF DESCRIPTION OF THE INVENTION [15] The present utility model refers to an intraoral longitudinal radiographic positioner (PR) (1) that allows subsequent images to be taken with the same geometric position.

[16] The invention comprises a millimeter rod for coupling to the cylinder of the x-ray machine at one end and at the other end, support for coupling a digital sensor or radiographic film and a template with marks on the patient's occlusal surface, with practical geometry to adapt to posterior and anterior teeth.

BRIEF DESCRIPTION OF THE FIGURES [17] Figure 1 shows the longitudinal radiographic standardizing positioner (PR) (1) with groove (2) under different views: perspective (a), frontal (b), lateral (c) and top (d).

[18] Figure 2 shows the PR (1) and the interocclusal registration guide (GRI) (3), the latter with sliding fit and holes (4), under different views: perspective (a), frontal (b), lateral (c) and upper (d).

Petition 870190136374, of 12/19/2019, p. 14/24

8/15 [19] Figure 3 shows the GRI (3) in a single piece, already attached to the PR (1), under different views: perspective (a), front (b), side (c) and top (d) .

[20] Figure 4 shows the PR (1) coupled to an x-ray tube (5), through a guide fitting with double clamps (EGA) (6), at different times, once the position of reference (8) of the EGA of the end of the x-ray tube (5).

[21] Figure 5 shows the PR (1) coupled to an x-ray tube (5), through the EGA (6) and the GRI (3) coupled to the PR (1).

[22] Figure 6 shows an acrylic resin template (9), already with the marks of the occlusal surface, coupled to GRI (3).

[23] Figure 7 shows a section of an upper posterior tooth (10) in occlusion in the acrylic resin template (9), already with the marks of the occlusal surface, coupled to GRI (3) and PR (1) in the tube. x-rays (5), with emphasis on the millimeter rod (11) in the PR (1) coupled and fixed to the EGA (6) by means of a screw (12).

[24] Figure 8 shows an example of radiographic recording of the upper dental arch, through the x-ray beam (13) and its projection on the sensor positioned (14) in the PR (1). The upper (10) and lower (15) posterior teeth are occluded with the resin template with the upper (9) and lower (16) teeth occlusion markings, which are coupled to the upper (3) and lower (17) ) of the GRI. Another modality of the double clamps (7) of the EGA (6) is presented through fixing screws (18) of the same to the X-ray tube (5).

Petition 870190136374, of 12/19/2019, p. 15/24

9/15 [25] Figure 9 shows an example of radiographic view of the lower arch (13).

[26] Figure 10 shows another example of GRI, but composed of two parts, an upper (19) and a lower (20), attachable to the groove (2) of the PR (1). The GRIs (19 and 20) are shown with the holes (4) that serve as coupling and fixation of the resin templates with the occlusion markings of the upper and lower teeth (9 and 16).

[27] Figure 11 shows examples of clamps for the PR: Figure 11a shows a clamp with a sliding rack (21); Figure 11b shows a support bracket with lock (22); and Figure 11c shows a clamp with screw-on rack (23).

[28] Figure 12 shows another GRI fitting mode, in one piece, with fitting / retention in the groove (2) of the PR (1) with dovetail rail ”(24).

[29] Figure 13 shows another way of fitting the

GRI, in two parts (upper and lower), with triangular shoulder (25) fitting / retention for coupling to the PR (1), which has a triangular recess (26), forming a male (GRI) female fitting (PR), illustrated through different views: perspective (a), front (b), side (c) and top (d).

DETAILED DESCRIPTION OF THE INVENTION [30] The intraoral longitudinal radiographic positioner (PR) (1) of the present utility model allows the geometric standardization between the positioner and the X-ray apparatus and between the positioner and the radiographed area, allowing to reproduce, in geometric terms, a periapical or interproximal radiography

Petition 870190136374, of 12/19/2019, p. 16/24

10/15 dentistry at different times, but with the differential of maintaining a fixed coordinate system over time. In addition, it allows the generated radiographs to be analyzed using the radiographic subtraction technique, fractal analysis, or any other that identifies very subtle changes that may occur over time in the oral cavity during the interval of the radiographs, without they can be detected by the human eye.

[31] The required positioner has an anatomical shape to the oral cavity, which allows its use on posterior and anterior teeth without discomfort for the patient, in addition to allowing its use for conventional and digital periapical radiographic films.

[32] Additionally, the present utility model provides references (millimeter rule) that allow the dental surgeon to write down the data for future consultations when acquiring a new radiograph on the clinical form. In addition, the acrylic resin template, which allows individualized occlusal registration between patients and between radiographed areas of the same patient, can be removed and repositioned in the radiographic positioner at any time.

moment and accurately. This also reduces the cost for the profession national and / or researcher, because the same would have to purchase just new templates for each area to be analyzed and not a positioner for each area as is used in current research. [33] The intraoral positioner standardizer

longitudinal radiographs (PR) (1) comprise groove (2);

interocclusal registration guide (GRI) (3); guide fitting with

Petition 870190136374, of 12/19/2019, p. 17/24

11/15 double clamps (EGA) (6) (7); millimeter rod (11) and screw (12).

[34] Figure 1 shows the radiographic positioner (PR) (1) with groove (2) for positioning the interocclusal registration guide (GRI), under different views: perspective (a), frontal (b), lateral (c) and higher (d).

[35] Figure 2 shows the PR (1) and the GRI (3), the latter with sliding fit and holes (4) for the retention of the interocclusal registration material, under different views: perspective (a), frontal (b ), lateral (c) and upper (d).

[36] Figure 3 shows the GRI (3) in a single piece, already attached to the PR (1), under different views: perspective (a), frontal (b), lateral (c) and upper (d).

[37] Figure 4 shows the PR (1) coupled to an x-ray tube (5), through a guide fitting with double clamps (EGA) (6) (7), to facilitate the repositioning of the PR in the ray tube x and provide greater precision in the repetition of new radiographic takes, at different times, once the reference position (8) of the EGA of the end of the x-ray tube has been registered.

[38] Figure 5 shows the PR (1) coupled to an x-ray tube (5), through the EGA (6) and the GRI (3) coupled to the PR (1).

[39] Figure 6 shows an acrylic resin template (9), with the marks of the occlusal surface of the patient's teeth to be evaluated, coupled to the GRI (3), thus allowing individualized occlusal registration between patients and between areas radiographs of the same patient.

[40] Figure 7 shows a section of an upper posterior tooth (10) occluded in the acrylic resin template (9),

Petition 870190136374, of 12/19/2019, p. 18/24

12/15 already with the marks of the occlusal surface, coupled to GRI (3) and PR (1) in the x-ray tube (5), with emphasis on the millimeter rod (11) in PR (1) coupled and fixed to the EGA (6) by means of a screw (12). In this way, the distance between the x-ray apparatus and the area to be radiographed is standardized, as well as the tooth positioned in an individual template, thus ensuring an always fixed position for comparison with the next radiographic shots, regardless of the time in which it occurs.

[41] Figure 8 shows an example of a radiographic view of the upper dental arch, through the x-ray beam (13) and its projection on the sensor positioned (14) in the PR (1). In this figure, the upper (10) and lower (15) posterior teeth are occluded with the resin template with the upper (9) and lower (16) teeth occlusion markings, which are coupled to the upper (3) and bottom (17) of the GRI. Another modality of the double clamps (7) of the EGA (6) is presented through fixing screws (18) of the same to the X-ray tube (5).

[42] Figure 9 shows an example of radiographic view (13) of the lower dental arch, similar to that shown in the previous figure.

[43] Figure 10 shows another example of GRI, but composed of two parts, an upper (19) and a lower (20), attachable to the groove (2) of the PR (1). The GRIs (19 and 20) are shown with the holes (4) that serve as coupling and fixation of the resin templates with the occlusion markings of the upper and lower teeth (9 and 16). Such records can be kept for each patient, which the repositioning

Petition 870190136374, of 12/19/2019, p. 19/24

13/15 is facilitated once the measurements are marked on the rod and the positioner is fixed to the x-ray tube with clamps.

[44] Figure 11 shows different examples of cable ties. Figure 11a shows a clamp with a sliding rack (21); Figure 11b shows a support bracket with lock (22); and Figure 11c shows a clamp with screw rack (23), under different views, which can be used in the PR EGA.

[45] Figure 12 shows another type of GRI fitting, in a single piece, with fitting / retention in the groove (2) of the PR (1) with “dovetail type” rail (24). It consists of a geometry with a conical “dovetail” section so that the GRI locks into the positioner at the end of the sliding fit in the groove (2) of the PR (1).

[46] Figure 13 shows another type of GRI fitting, in two pieces (upper and lower), with fitting / retention in triangular (25) or cylindrical (not illustrated) shoulder, for coupling to the PR (1), which instead grooved, it has a triangular recess (26), forming a male (GRI) female (PR) type fitting, illustrated through different views, perspective (a), front (b), side (c) and top (d).

[47] PR (1) can be made of materials such as fibers, ceramics, polymers, among others, as well as their combination, with the possibility of adding silver nanoparticles to make the product resistant to contamination by microorganisms pathogenic and has a shape and dimensions compatible with the oral cavity, child or adult.

Petition 870190136374, of 12/19/2019, p. 20/24

14/15 [48] PR (1) can be made using methods such as injection, thermoforming, rapid prototyping, lost wax sculpture, among other possible methods, as well as their combination.

[49] Once the professional has defined the type of PR, using the GRI fitting type, it will only be necessary to make a new template in acrylic resin for each patient and each radiographed area to be monitored radiographically over time.

[50] The improvements to the present utility model are listed in a simplified form below:

• Provides greater efficiency to obtain longitudinally standardized radiographic images for use with radiographic subtraction techniques, fractal analysis, or any other that requires repeatability and reproducibility of images, compared to current models;

• Provides better diagnosis and prognosis for the various areas of Dentistry, such as Periodontics, Dentistry, Implantology, and Odontogeriatrics;

• It allows disseminating and popularizing radiographic subtraction techniques, fractal analysis, and others, efficient, but with great difficulties in technical execution with the current resources;

• Enables excellent geometric standardization of periapical and interproximal radiographs at low cost;

• Can be applied to any dental element;

• It is easy to assemble and operate;

• It has a low construction cost, making it accessible to all patients;

Petition 870190136374, of 12/19/2019, p. 21/24

15/15 • It has low operating and maintenance costs.

[51] In addition, it should be noted that the positioner described in this application is not limited to the applications mentioned here. Thus, it is obvious to those skilled in the art that changes and modifications can be implemented in order to improve the project, without these changes not being covered by the scope of the present utility model.

Claims (4)

1. X-ray longitudinal (PR) intraoral positioner (1) composed of groove (2); interocclusal registration guide (GRI) (3), TERIZIZED CHARACTER because it comprises a groove (2) for positioning the interocclusal registration guide (GRI) (3) with sliding fit and holes (4) for the retention of interocclusal registration material , guide fitting with double clamps (EGA) (6) (7) in order to allow the repositioning of the PR (1) in the x-ray tube (5) and reference (8) of the EGA (6) of the end of the ray tube x (5); millimeter rod (11) coupled to the PR (1) and fixed to the EGA (6) by means of the screw (12). 2. Positioner, according to claim 1, CHARACTERIZED by the fact that the GRI (3) comprises other modalities of fitting in one piece with fitting / retention in the groove (2) of the PR (1) with “dovetail” (24) and / or fitting / retention in triangular shoulder (25), for coupling in the PR (1) with triangular recess (26), forming a male (GRI) female (PR) type fitting. 3. Positioner, according to claim 2, CHARACTERIZED by the fact that another type of guide fitting with clamps (EGA) (6) double (7) is presented through fixing screws (18) of the same to the x-ray tube ( 5). 4. Positioner, according to claims 2 or 3, CHARACTERIZED by the fact that the clamps are, preferably, clamp with sliding rack (21); support clamp with lock (22); or clamp with screw-on rack (23).