RU2733036C1 - Diagnostic technique of anatomical and functional state of dentoalveolar complex - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to dentistry, and can be used for diagnosing anatomical and functional state of dentoalveolar complex. Maxillofacial area is examined using computed tomography and the position of the tongue in the sagittal and frontal planes is determined. Convex-ray computed tomography is used as a computer tomography. In the sagittal plane the distance from the points located on the palate mucosa from the apex of the posterior nasal spine is determined at distance of 10, 20 and 30 mm at the level of the median palatine suture to the tongue back. In frontal plane distance from lateral surfaces of tongue to palate mucosa is determined at level of perpendiculars drawn from above points on palate mucosa to tongue back. If these distances are 0–2 mm, the anatomical and functional state of the dentoalveolar complex is normal. If values are more than 2 mm, it exceeds the limits of normative indices.

EFFECT: method provides diagnostics of anatomical and functional state of dentoalveolar complex by determining position of tongue.

1 cl, 2 ex

Description

This invention relates to the field of medicine, in particular to dentistry and radiation diagnostics, and can be used in the diagnosis of the anatomical and functional state of the dentoalveolar complex to form individual treatment plans for patients with dentoalveolar anomalies.

A known method for the diagnosis of the anatomical and functional state of the dentoalveolar complex.

The method is carried out according to teleroentgenography (TRG) of the head in lateral projection, where the teleroentgenogram determines the area of the tongue in the sagittal plane as a contour formed by the following points and surfaces: the tip of the tongue, the highest point on the back of the tongue, a point on the oral surface of the tongue in the place of the greatest thickening of the soft palate, a point on the posterior surface of the tongue in the place of the greatest narrowing of the oropharynx, the most protruding point on the anterior surface of the hyoid bone, point Me (the lowest point on the lower contour of the mandible at the site of symphysis), the oral surface of the alveolar process of the lower jaw, lingual surface and incisal the edge of the crown of the central lower incisor.

Then the area of the oral cavity is determined by the following surfaces and points: the palatal surface of the central incisor of the upper jaw, the contour of the hard palate, the oral surface of the soft palate, a point on the posterior surface of the tongue in the place of the greatest narrowing of the oropharynx, the most protruding point on the anterior surface of the hyoid bone, point Me ( the lower point on the lower contour of the body of the lower jaw at the place of imposition of the symphysis), the oral surface of the alveolar process of the lower jaw, the lingual surface and the cutting edge of the crown of the central lower incisor.

The space free from the tongue is defined between the back of the tongue and the contour of the hard palate. Next, the resulting contour is transferred to a sheet of paper, digitized and processed using a computer program. [Persia L.S., Sokhov S.T., Gioeva Y.A., Tsvetkova L.A., Surzhko D.A., Tsvetkova M.A. - RU 2 360 604 C1 IPC А61В 6/00 2008].

The disadvantages include:

- the subjectivity of the method in connection with the imposition of bone structures in a two-dimensional image;

- low accuracy;

- unreliable data evaluation due to analysis in only one plane.

The closest to the proposed is a method for diagnosing the anatomical and functional state of the dentoalveolar complex using multispiral computed tomography (MSCT).

The method includes calculating the volume and surface area of the tongue and oral cavity, assessing the functional mobility of the tongue.

For this, a study is carried out by scanning the maxillofacial region in young children with minimal physical and technical characteristics, with a slice thickness of 0.5 mm.

The study includes the actual scanning of the patient's maxillofacial region in three stages: native non-contrast scanning, scanning during phonation of the sound "A", scanning during phonation of the sound "I" and postprocessor processing of the data obtained [Nadtochy A.G., Starikova N.V., Fomina G.I. - RU 2 462 191 C1 IPC А61В 6/03 2011].

The disadvantages of this method include:

high radiation exposure to the patient; labor intensity of data processing.

The technical result of this invention is to improve the efficiency of the method by increasing the accuracy of determining the position of the language, the space occupied by the language and the space free of the language.

The technical result is achieved by the fact that in the method for diagnosing the anatomical and functional state of the dentoalveolar complex by scanning the maxillofacial region using computed tomography and determining the position of the tongue in the sagittal and frontal planes, a distinctive feature is that cone-beam computed tomography is used as computed tomography. tomography and in the sagittal plane determine the distance from points located on the mucous membrane of the palate from the apex of the posterior nasal spine at a distance of 10, 20 and 30 mm at the level of the median palatine suture to the back of the tongue, and in the frontal plane determine the distance from the lateral surfaces of the tongue to the mucous membrane of the palate at the level of perpendiculars drawn from the above points on the mucous membrane of the palate to the back of the tongue, and at values of these distances of 0-2 mm, the anatomical and functional state of the dentoalveolar complex corresponds to the norm, and at values of more than 2 mm it goes beyond the limits of the standard indicators.

The method is carried out as follows.

The position of the tongue is determined using cone-beam computed tomography (CBCT) by scanning the maxillofacial region, performed in the natural position of the head, in the sagittal and frontal planes.

In the sagittal plane, it is determined by the distance (P1T1) mm, (P2T2) mm, (P3T3) mm from the points located on the mucous membrane of the palate (P1, P2, P3) from the apex of the posterior nasal spine (SpP) at a distance of 10 mm (P1), 20 mm (P2) and 30 mm (P3), located at the level of the median palatine suture to the back of the tongue.

With the distance Р1Т1, Р2Т2, Р3Т3, equal to 0-2 mm, the anatomical and functional state of the dentoalveolar complex is normal.

At a distance of Р1Т1, Р2Т2, Р3Т3 more than 2 mm, the anatomical and functional state of the dentoalveolar complex is impaired.

In the frontal plane, the position of the tongue is determined by the distance (TR1TL1, TR2TL2, TR3TL3) from the lateral surfaces of the tongue to the palatine mucosa at the level of perpendiculars drawn from the above points on the palatine mucosa (P1, P2, P3) to the back of the tongue (T1, T2, T3) ...

With a distance between them equal to 0-2 mm, the anatomical and functional state of the dentoalveolar complex is normal.

When the distance between the points from the lateral surfaces of the tongue to the mucous membrane of the palate (TR1TL1, TR2TL2, TR3TL3) at the level of perpendiculars drawn from the above points on the mucous membrane of the palate (P1, P2, P3) to the back of the tongue (T1, T2, T3) is more than 2 mm anatomical - the functional state of the dentoalveolar complex is impaired.

Example 1.

Patient A, 6 years old at the time of admission.

The patient's parents complained of a malocclusion. On the basis of clinical examination and CBCT examination of the maxillofacial region according to the proposed method for diagnosing the anatomical and functional state of the dentoalveolar complex, the diagnosis was made: distal occlusion, sagittal incisal occlusion, narrowing of the dental arch of the upper jaw.

The given data, respectively, reflect the values of the studied parameters at the time of the diagnostic and control examination.

When the patient was admitted, the distance from points located on the mucous membrane of the palate from the apex of the posterior nasal spine, located at the level of the median palatine suture to the back of the tongue, measured after 10, 20 and 30 mm in the sagittal plane, corresponded to: P1T1 = 6.38 mm, P2T2 = 7 , 46 mm, P3T3 = 10.24 mm.

In the frontal plane, the position of the tongue is determined by the distance from the lateral surfaces of the tongue to the mucous membrane of the palate at the level of perpendiculars drawn from the above points to the mucous membrane of the palate to the back of the tongue. Distances TR1TL1 = 15.38 mm, TR2TL2 = 23.39 mm, TR3TL3 = 16.46 mm, which is a violation of the anatomical and functional state of the dentoalveolar complex.

оборота в течение месяца, затем после 6 месяцев удержания достигнутого расширения аппарат был снят.Провели динамическое наблюдение пациента через три года после первичной диагностики выполнили аналогичное контрольное обследование по предлагаемому способу диагностики анатомо-функционального состояния зубо-челюстного комплекса.After examination according to the proposed method for diagnosing the anatomical and functional state of the dentoalveolar complex and drawing up a treatment plan, an apparatus for rapid palatal expansion was installed. The device was activated at

turnover within a month, then after 6 months of maintaining the achieved expansion, the apparatus was removed. A dynamic observation of the patient was carried out three years after the initial diagnosis, a similar control examination was performed according to the proposed method for diagnosing the anatomical and functional state of the dental-jaw complex.

After three years after the end of active orthodontic treatment, the distance from the palatine mucosa to the back of the tongue: P1T1 = 0 mm, P2T2 = 0 mm, P3T3 = 0 mm in the frontal plane, the distance from the lateral surfaces of the tongue to the palatine mucosa corresponded to: TR1TL1 = 0 mm, TR2TL2 = 0 mm, TR3TL3 = 0 mm, which indicates that the anatomical and functional state of the dentoalveolar complex is normal.

As a result of the orthodontic treatment, as can be seen from the above data, the anatomical and functional state of the dentoalveolar complex was restored due to the expansion of the upper jaw.

Example 2.

Patient C, 11 years old at the time of admission.

The patient's parents complained of a malocclusion.

Based on the clinical examination and the proposed method for diagnosing the anatomical and functional state of the dentoalveolar complex, the diagnosis was made: vertical, sagittal incisal disocclusion (vertical slit 5 mm), narrowing of the dentoalveolar arch of the upper jaw, lack of space for eruption 1.3, 2.3.

The given data, respectively, reflect the values of the studied parameters at the time of the diagnostic and control examination.

On admission, the distance from points located on the mucous membrane of the palate from the apex of the posterior nasal spine, located at the level of the median palatine suture to the dorsum of the tongue, measured after 10, 20 and 30 mm in the sagittal plane, corresponded to: P1T1 = 8.76 mm, P2T2 = 11 , 23 mm, P3T3 = 8.00 mm.

In the frontal plane, the position of the tongue is determined by the distance from the lateral surfaces of the tongue to the mucous membrane of the palate at the level of perpendiculars drawn from the above points on the mucous membrane of the palate to the back of the tongue.

Distance TR1TL1 = 28.20 mm, TR2TL2 = 28.04 mm, TR3TL3 = 29.74 mm, which is a violation of the anatomical and functional state of the dentoalveolar complex.

оборота в течение месяца, затем после 6 месяцев удержания достигнутого расширения аппарат сняли. Провели динамическое наблюдение пациента через два года после первичной диагностики выполнили аналогичное контрольное обследование, включающее предлагаемый способ диагностики положения языка и состояние анатомо-функционального баланса в челюстно-лицевой области.After a diagnostic examination according to the proposed method and drawing up a treatment plan, an apparatus for rapid palatal expansion was installed. The device was activated at

turnover within a month, then after 6 months of retention of the achieved expansion, the apparatus was removed. Conducted a dynamic observation of the patient two years after the initial diagnosis, performed a similar control examination, including the proposed method for diagnosing the position of the tongue and the state of the anatomical and functional balance in the maxillofacial region.

After two years after the end of active orthodontic treatment, the distance from the palatine mucosa to the back of the tongue: P1T1 = 0 mm, P2T2 = 0 mm, P3T3 = 0 mm in the frontal plane, the distance from the lateral surfaces of the tongue to the palatine mucosa corresponded to: TR1TL1 = 0 mm, TR2TL2 = 0 mm, TR3TL3 = 0 mm, which indicates that the anatomical and functional state of the dentoalveolar complex is normal.

As a result of the orthodontic treatment, as can be seen from the above data, the anatomical and functional state of the dentoalveolar complex was restored due to the expansion of the upper jaw.

This method examined 150 patients aged 4 to 50 years.

This method allows you to quickly and with high accuracy identify anomalies in the position of the tongue in space in patients with dentoalveolar anomalies before and after orthodontic treatment aimed at increasing the space for the tongue, changing the anatomical and functional balance in the maxillofacial region.

Claims (1)

A method for diagnosing the anatomical and functional state of the dentoalveolar complex by scanning the maxillofacial region using computed tomography and determining the position of the tongue in the sagittal and frontal planes, characterized in that cone-beam computed tomography is used as computed tomography and the distance from the points is determined in the sagittal plane located on the mucous membrane of the palate from the apex of the posterior nasal spine at a distance of 10, 20 and 30 mm at the level of the median palatine suture to the back of the tongue, and in the frontal plane, the distance from the lateral surfaces of the tongue to the mucous membrane of the palate is determined at the level of perpendiculars drawn from the above points on the mucosa palate to the back of the tongue, and at values of these distances of 0-2 mm, the anatomical and functional state of the dentoalveolar complex corresponds to the norm, and at values of more than 2 mm it goes beyond the limits of the standard indicators.