RU2462191C1 - Method of examining tongue and oral cavity in patients with cleft lip and palate by data of multispiral computed tomography - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, X-ray diagnostics. Method includes calculation of volume and area of surface of tongue and oral cavity, estimation of functional mobility of tongue. For this purpose examination is performed by protocol of brain scanning in children of early age with minimal physical-technical characteristics, with cut thickness 0.5 mm. Examination includes scanning proper of patient's maxillofacial region consisting of three stages: native contrast-free scanning, scanning with phonation of "A" sound, scanning with phonation of "И" sound and post-processor processing of obtained data in soft-tissue mode in standard axial, sagittal and frontal planes, as well as in arbitrary planes. Standard programme of multispiral computed tomography is used to measure areas of surfaces and volumes.

EFFECT: method ensures accuracy and reliability of estimation of surface area and volume of tongue and oral cavity in said group of patients, acceleration of diagnostics with absence of invasiveness, without application of additional means, maximal comfort for patient with their minimal involvement.

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Description

The developed method is used in medicine, relates to the field of radiation diagnostics, is a method of x-ray computed tomography. This technique can be used in patients of the departments of maxillofacial surgery (FMH) and orthodontics with single and bilateral cleft lip and palate (RGN), isolated cleft palate, with Robin syndrome, with maxillofacial dysostoses, accompanied by cleft lip and palate. The proposed method is performed before surgery and allows you to evaluate during a routine examination, in addition to bone structures (shape, size, density of the tissue of the upper and lower jaws), soft tissues of the maxillofacial region, topography of the teeth and dental primordia, as well as surface areas and volumes of the oral cavity and language, functional mobility of the language.

There are several ways to evaluate the size of the language:

1. The anthropometric method was proposed by N.E. Bandy and W.S. Hunter in 1969 (Gioeva Yu.A., Persia L.S., 2008). The patient is asked to relax the tongue, then mark with a marker a distance of 40 mm from the top of the tongue towards its root. With the help of alginate mass with maximum extension of the tongue, it is imprinted with an individual spoon made of basic wax. Marker marks remain on the cast of the tongue of the gypsum model and on the mold. The plaster model is immersed to the mark in a measuring cup filled with water, and the volume of the tongue is determined by the volume of displaced water. For objectivity, each measurement is repeated three times, and the model is pre-soaked in water to prevent the absorption of water by gypsum.

The disadvantages of the method are:

- the duration and complexity of the study, including taking casts, making a plaster model, taking measurements three times,

- is made with the active participation of the patient, quite uncomfortable for him,

- the reliability of the data obtained during the measurement (evaluation of only the moving part).

2. Measurement of the area of the tongue, the area of the oral cavity, the area of the space free of the tongue, indirectly indicating the position of the tongue in the oral cavity, according to the tele-radiography (TRG) of the head in a lateral projection. The method is described by J.M. Battagel, A.Johal, A.-M.Smith, B.Kotecha in 2002 (Gioeva Yu.A., Tsvetkova M.A., Porokhina E.V., 2010). On the TRG of the head in the lateral projection draw lines connecting the tip of the tongue; the highest point on the back of the tongue; a point in the back of the tongue at the site of greatest thickening of the soft palate; a point on the back of the tongue at the site of the greatest narrowing of the airways; the frontmost point of the hyoid bone; the chin; the oral surface of the alveolar part of the lower jaw; lingual surface and cutting edge of the crown of the central incisor of the lower jaw; palatine surface of the central incisor of the upper jaw; hard sky outline; oral surface of the soft palate.

The calculation of the areas of the indicated parameters is carried out using the Pyatol computer program developed by Yu.A. Gioeva et al.

The disadvantage of this method:

- the reliability of the data obtained by TRG (evaluation of only a two-dimensional image in one projection).

The aim of this invention is to increase the accuracy of assessing the surface area and volume of the tongue, surface area and volume of the oral cavity, determining the functional activity of the tongue, reducing the duration of the diagnostic phase in the absence of invasiveness of the study and the use of additional tools, increasing comfort for the patient, with minimal involvement.

This goal is achieved by the fact that in the method of CT assessment of volumes and surface areas of the tongue and oral cavity, the tongue is measured in its natural position on all anatomical sections, including the root, the time for obtaining results is reduced.

The proposed method is carried out as follows: scanning is performed in three stages, including functional tests, and then post-processing of the obtained data is performed.

In order to reduce the radiation load on the patient in the study of the maxillofacial region in all patients, including children, adolescents and adults, a protocol for scanning the brain of young children (with minimal physical and technical characteristics: for example, 30 mA versus 120 mA for adult studies was used ), with a slice thickness of 0.5 mm.

Subsequent post-processing processing of the obtained data allows obtaining images in soft tissue and bone modes of sufficient diagnostic quality with a significant reduction (up to 4 times) of radiation exposure to the patient.

Image reconstruction is performed in standard (axial, sagittal and frontal), as well as in any arbitrary planes with an equal degree of contrast and spatial resolution.

Scanning stages: 1 - native (non-contrast) head scan; 2 - scanning during sound phonation “A”; 3 - scanning during sound phonation “AND”.

Native scanning (1st stage) is carried out from the middle of the forehead to the hyoid bone, with the mouth closed, in the position of the usual occlusion, and with the usual position of the tongue in the oral cavity.

Repeated scans during phonation of sounds “A” and “I” (2nd and 3rd stages) are performed with shortening of the study area - from the level of the nasopharynx to the hyoid bone, which allows to reduce radiation exposure to the patient during the study.

According to the scanning data, post-processing processing is carried out.

The most convenient calculation of the surface areas and volumes of the tongue and oral cavity is carried out according to the reconstructed images in the frontal plane. In this case, the outline of the tongue, including the mucous membrane of the back and the lateral surfaces of the tongue to the level of the bottom of the oral cavity, is drawn with the help of the cursor. Calculations are carried out from the tip of the tongue to the root of the tongue inclusively in increments of 3-5 mm.

The data obtained on the totality of all slices with the measurements taken are automatically summed and calculated with the subsequent display of the result - the surface area and volume of the tongue.

Using a similar technique, the surface area and volume of the oral (posterior) cavity located inward from the alveolar process of the upper jaw are calculated.

Evaluation of the function of the language is based on the analysis of changes in its position during the phonation of sounds “A” and “I”. The disadvantages of this method:

the patient’s presence in the oral cavity of non-removable orthodontic devices with the presence in the structure of metal elements that create artifacts that interfere with a reliable assessment;

- time-consuming post-processing data processing to assess the area and volume of the tongue, the area and volume of the oral cavity (it is necessary to carry out measurements on a large number of sections);

- radiation load on the patient.

Example

Patient Evsyukov Zhenya, 14 years old, was in the clinic with a diagnosis of complete unilateral cleft of the upper lip, alveolar ridge and palate, upper retromicrognathia, narrowing of dentition, macroglossia. At admission, sagittal disocclusion was 12 mm, lingual inclination of the teeth was noted. After performing a CT study with functional tests and the following cephalometric analysis, it was revealed: the volume of the tongue corresponds to the volume of the oral cavity, which refutes the earlier diagnosis - macroglossia, therefore, this patient is not shown a sectoral resection of the tongue; revealed a low position of the tip of the tongue (during native research and during functional tests), lingual inclinations of the lower incisors, according to these data, the patient was assigned a hardware correction of the tongue position.

This method examined 80 patients aged 3 years to 48 years.

Thus, a CT scan is performed for diagnostic purposes for planning osteoplastic surgery, orthodontic treatment. The proposed method is suitable for assessing the position, area and volume of the tongue, the area and volume of the oral cavity, the functional activity of the tongue.

Advantages of the proposed method:

- is a method of cephalometry, does not require additional research;

- produced without the use of additional tools and materials;

- quick conduct of the study itself;

- reliable assessment of surface areas and volumes of the tongue and oral cavity;

- is made with minimal participation of the patient, as comfortable as possible for him.

Claims (1)

A method for studying the tongue and oral cavity in patients with cleft lip and palate according to multispiral computed tomography, including calculating the volume and surface area of the tongue, volume and surface area of the oral cavity, evaluating the functional mobility of the tongue, for which a study is carried out according to the protocol for scanning the brain in children early age with minimal physical and technical characteristics, with a slice thickness of 0.5 mm, including actually scanning the maxillofacial region of the patient, consisting of three stages s: native non-contrast scanning, scanning during phonation of sound “A”, scanning at phonation of sound “And” and post-processing of the obtained data in soft-tissue mode in standard axial, sagittal and frontal planes, as well as in arbitrary planes using the standard program of multispiral computed tomography for measuring surface areas and volumes.