RU2544291C1 - Method of infra-red diagnostics of cheek structure - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to infra-red diagnostics, and can be applied for the infra-red diagnostics of the cheek structure. For this purpose the registration of the cheek temperature is realised by a method of infra-red thermography by means of a thermovision camera. As the thermovision camera applied is an apparatus with the function of colour infra-red imaging of the cheek on a monitor depending on its local temperature in the range of +26-+37°C. After that, drinking water is introduced into the oral cavity at a temperature of +42°C for the term up to 3 minutes. The volume of the introduced drinking water is determined by the complete filling of the oral cavity. When the cheek hyperthermia develops and the maximal difference of temperature in its selected part is achieved, thermograms are compared. In case of a uniform cheek temperature a conclusion about the homogeneous cheek structure is made. In case of the presence of an area with local hypo- or hyperthermia, its shape, size and localisation are concretised, the data are analysed and a conclusion about the shape, size and localisation of the area with respectively low or high heat conductivity in the cheek is produced.

EFFECT: method ensures the diagnostics of the cheek structure with the simplification and increase of its safety and can be widely applied including in pregnant women and small children.

1 ex

Description

The invention relates to medicine, namely to the field of radiation diagnostics and dentistry, and can be used for the diagnosis of parotid salivary glands, the presence of inflammation, neoplasms and foreign bodies in the cheek.

A known method for the diagnosis of diseases of the parotid salivary glands by sialography and orthopantomography, based on the preliminary introduction of a soluble X-ray contrast substance yogexol in a concentration (350 mg of iodine in 1 ml of solution) of 3.0-5.5 ml, depending on the age of the subject (RU 2135083 C1 )

The disadvantage of this method is the narrow scope, complexity and low safety of diagnosing the structure of the cheeks due to the need to use a special cabinet, X-ray equipment, the presence of electric current, a special X-ray contrast medium, calculation of its dose, injector, injection of the X-ray contrast medium in the “right” place the oral cavity, the adoption by the patient’s body of a special position in space, fixation of the patient’s head in this position, placement in the immediate vicinity with a patient’s head of a special rigid device with an emitter and a sensor, creating special relationships between the patient’s head and the receiving and receiving structure of the x-ray unit for radiation and recording the “necessary” radiation information and the inevitability of exposure of the patient and medical personnel to x-rays, which is a contraindication for the application of the method pregnant women, young children, the cause of chronic radiation sickness in health workers, and also increases the risk of mutagenic o actions on germ cells both in them and in patients.

A known method for determining the depth and position of salivary stones and submandibular salivary gland using an x-ray, on which the level of the mucous membrane of the maxillofacial groove of the floor of the oral cavity is fixed, for which iodoform turunda, impregnated with any radiopaque substance, is placed on the surface of the mucous membrane, the distance between the lower the edge of the turunda and the upper edge of the salivary stone, thereby determining the depth of the stone (RU 2126651 C1).

The disadvantage of this method is the narrow scope, high complexity and low safety of visualization of the structure of the cheek due to the need to use a special cabinet, X-ray equipment, the presence of electric current, a special X-ray contrast medium, iodine-turundum, soaking it with this substance, the presence of salivary stone, determining its location, measuring the distance between the lower edge of the turunda and the upper edge of the stone, the patient’s body taking a special fixed position in space fixing the patient’s head in this position, placing in the immediate vicinity of the patient’s head a special rigid device with an emitter and X-ray receiver, creating special relationships between the patient’s head and the receiving and receiving structure of the x-ray unit for radiation and registration of the “necessary” radiation information and inevitability x-ray irradiation of the patient and medical personnel, which is a contraindication for the use of the method in pregnant women, younger children Asta, the cause of chronic radiation sickness in health care workers, as well as increases the risk of mutagenic effect on reproductive cells like these, and patients.

The objective of the invention is to expand the range, simplify the technique and increase safety by obtaining information in the infrared range of the radiation spectrum after heating the cheeks from the oral cavity.

The technical result is the expansion of the scope, simplification and increased safety, in particular the elimination of chronic radiation sickness among medical personnel and mutagenic effects on the body of pregnant women and young children.

The essence of the proposed method for infrared diagnosis of the structure of the cheek, including preliminary determination of the dose and the introduction of a contrasting fluid into the oral cavity, the use of a radiation diagnostic apparatus with the function of imaging and recording changes in the radiation echogenicity of the cheek, consists in the fact that drinking water is used as a liquid at a temperature of + 42 ° C , its dose is determined by completely filling the oral cavity, water is injected for up to 3 minutes, a thermal imager with the function is used as a radiation diagnostic apparatus color infrared image of the cheek on the screen, depending on its local temperature in the range + 26- + 37 ° C, the temperature is recorded by infrared thermography carried out before the introduction of water and after the development of hyperthermia of the cheek when the maximum temperature difference in its selected part is reached, thermograms are compared with a friend and at a uniform temperature of the cheek, they give a conclusion about the homogeneity of the structure of the cheek, and in the presence of a site with local hypo- or hyperthermia, its shape, size and localization are specified July, analyze the data and give an opinion on the shape, size and location of localization in the cheek of the site, respectively, with low or high thermal conductivity.

Moreover, the use of drinking water as a liquid at a temperature of + 42 ° C provides thermal contrasting of tissues [1] (thermal contrasting is a concept that we introduced earlier). necessary for thermal imaging. Warm water is a physiological coolant that emits infrared radiation in the oral cavity and warms the cheek from the inside without burning it, which is a prerequisite for the safe warming of its entire thickness up to an increase in the temperature of the outer surface of the cheek, which is necessary for infrared, i.e. thermal diagnostics structure of the cheek according to the temperature of its skin. The fact is that heating water to a level of + 42 ° C is sufficient and, at the same time, a safe level of hyperthermia, since it eliminates a burn. In addition, this heating limit is most important when applying the method in patients with loss of consciousness (for example, with a gunshot wound) or with a loss of sensation in the cheek (for example, due to local anesthesia).

Using water in a volume that ensures full filling of the cavity for up to 3 minutes ensures automatic dosing and effective heating of the entire thickness of the cheek not only in children and adolescents, but also in adults. Removing water after 3 minutes ensures, on the one hand, the maximum possible warming up of the cheeks without excessive lengthening of the thermal treatment, and on the other hand, the timely achievement of normalization of the oral cavity.

Using a thermal imager with the function of a color infrared image of the cheek on the screen as a device for radiation diagnostics, depending on its local temperature in the range + 26- + 37 ° C, provides a high safety of the method due to the non-contact research method, and also due to the possibility of obtaining a color image on the screen a movie camera, a computer, and also in the form of a color photograph on digital and paper media. In addition, the use of a thermal imager provides continuous visual observation of the entire investigated surface of the selected cheek, simplifying the assessment of the thermal conductivity of the cheek.

The registration of the temperature of the cheek by infrared thermography, carried out before and after the introduction of water and after reaching the maximum thermal contrast of the structure in the selected part of the cheek, provides high accuracy in the diagnosis of a foreign object (stone in the salivary gland, shot, needle, nail, drug container in the cheek, etc.) .d.), parotid salivary gland, foci of inflammation, neoplasm or helminthic invasion, since it allows timely detection of the beginning warming of the outer surface of the skin of the cheek, occurring odyaschego when heat convection from the coolant of the oral cavity. Moreover, the uniformity of the temperature increase of the skin of the cheek is determined by the uniformity of the thermal conductivity of the cheek, that is, the uniformity of its structure. Moreover, the presence of an object with higher thermal conductivity inside the cheek accelerates skin warming in the projection area of this object, and vice versa. Timely identification of the onset of warming of the outer surface of the cheek is necessary to further increase attention to the assessment of its temperature and to prepare for accurate and high-quality registration (high-quality photographing) at the most informative moment, providing the most high-quality visualization of the heterogeneity (thermal conductivity) of the cheek structure by its thermal contrast.

Comparison of thermograms with each other is aimed at improving the accuracy of diagnosing the structure of the cheek, since the initial temperature of the cheek is different for all people, since it depends on the individual characteristics of the blood supply to their faces, in particular, due to the presence of obvious or hidden foci of skin inflammation, for example in the form of acne.

Maintaining a uniform temperature in the cheek after heat loading allows us to give a conclusion about the uniformity of the structure of the cheek, since the uniform temperature of the entire studied area of the cheek after completion of its heating, carried out from the oral cavity, indicates uniform thermal conductivity of the entire cheek.

The presence in the cheek of the site with local hypo- or hyperthermia, the concretization of its shape, size and location, as well as the analysis of these data, allows us to give an opinion on the shape, size and location of the site in the cheek of the site, respectively, with low or high thermal conductivity, since the skin of the cheek in the projection of the hypo- or hyperthermal conduction focus is heated differently than neighboring areas of the cheek. In particular, in the presence of an object with relatively high thermal conductivity inside the cheek (for example, a lead pellet or sewing needle), heat transfer to the cheek skin at the site of its projection will accelerate and intensify, therefore, a focus of local hyperthermia will develop in this place. On the other hand, if there is an object with relatively low thermal conductivity inside the cheek (for example, an embedded plastic drug container), the heat transfer to the cheek skin at the site of its projection will slow down and decrease, therefore, a focus of local hypothermia will develop in this place.

The method is as follows. Obtain voluntary informed consent from the patient for an infrared examination of his cheek, set the thermal imager to infrared thermography in the range + 26- + 37 ° C and take a skin picture of the selected cheek in the infrared range of the radiation spectrum. Then, drinking water is heated to a temperature of + 42 ° C, it is poured into a glass and the patient is asked to draw a full mouth of this water for up to 3 minutes. After that, thermal imaging monitoring of heat radiation in the selected cheek is continued. After the development of hyperthermia, the cheeks observe the uniformity of its hyperthermia and, when the maximum temperature difference in its selected part is reached, a second picture is taken. Then, thermograms are compared with each other and, at a uniform temperature in a selected part of the cheek, a conclusion is made about the homogeneity of the structure of the cheek, and if there is a site with local hypo- or hyperthermia in the cheek, its shape, size and localization are specified, data are analyzed and an opinion on the shape, size and localization in the cheek of the site, respectively, with low or high thermal conductivity.

Example 1. Patient S., aged 26, was admitted to the dental clinic with complaints of pain in the right parotid chewing area when chewing, swelling in the right submandibular region, and suspected tumor of the salivary gland, since her mother had been found similarly a year ago malignant tumor of the salivary gland. Clinical examination revealed that the parotid glands are painless, not associated with the skin and surrounding tissues, are mobile, salivary secretion from the ducts is moderate, and the salivary secret is clear. Palpation of the right parotid masticatory region revealed tenderness in the masticatory muscles. Preliminary diagnosis: myogenic pain phenomenon in the face (MBFL) [2, 3]. To clarify the nature of the lesion, it was proposed to conduct an X-ray examination, namely, sialography and orthopantomography according to the known method. However, the patient reported that she may be pregnant and therefore refuses to use x-ray research methods.

In this regard, she was offered a developed method of infrared diagnosis of the structure of the cheek. After clarifying the safety of this method and obtaining informed consent from a patient for thermal imaging face diagnostics, the developed method was applied. To do this, using a NEC TH91XX thermal imager (USA) connected to a computer, we began monitoring the right cheek in the infrared range of the radiation spectrum in the temperature range + 26- + 37 ° C and took the first picture. It turned out that there is a zone of local hyperthermia in the area of projection of the masticatory muscles. Then they poured hot drinking water from the kettle into the glass and, using cooling with an additional portion of cold water, ensured that the temperature of the water in the glass dropped to + 42 ° C. They asked the patient to get a full mouth of this water for up to 3 minutes. After that, thermal imaging monitoring of heat radiation in the right cheek was continued. In this case, local hyperthermia in the area of projection of the masticatory muscles persisted. After 2.0 minutes, a second zone of uniform hyperthermia was found in the parotid region of the cheek, located in the projection area of the right parotid gland. After 2.5 minutes, the achievement of the maximum temperature difference in the projection area of the parotid salivary gland was detected and a second picture was taken. Then, thermograms were compared with each other and the presence of the initial portion of local hyperthermia in the area of the right chewing muscles, which remained after the thermal “load”, and the appearance of the area of local and relatively uniform hyperthermia in the area of the projection of the right parotid salivary gland after the thermal “load” were observed. The forms, sizes and localization of these two sites were specified, the data obtained were analyzed, and a conclusion was drawn that there were two sites with local hyperthermia in the patient’s cheek: one located in the area of projection of the masticatory muscles, detected before heat load, therefore, indicates increased heat production and / or inflammation in the masticatory muscles, the second is located in the projection area of the parotid salivary gland, is detected only after heat load, therefore indicates the absence of increased heat in it production and inflammation, and the nature of the appearance, shape, size and location of the site localization hyperthermia indicate a relatively higher thermal conductivity of the object (probably - parotid gland) situated in the wall of the cheek. The revealed sizes, shape and localization of the right parotid gland in the patient correspond to the size, shape and localization of normal parotid glands.

After that, a study of the patient’s teeth was carried out, which revealed the presence of crowns on the 6th, 7th and 8th teeth in the right lower jaw, which were installed a year ago and led to an incorrect bite. An incorrect bite could cause pain in the right parotid region and cause local hyperthermia of the cheek in the area of projection of the masticatory muscles.

Thus, based on the results obtained using the proposed method of infrared diagnosis of the structure of the cheek, a preliminary diagnosis was confirmed, which was then expanded as a result of an additional dental examination. Crowns were restored, which normalized the bite, and further monitoring of the patient showed restoration of health, and also confirmed the absence of a tumor in the right parotid gland. The patient’s presence of pregnancy was confirmed and 7 months after going to the dental clinic, the patient entered the maternity hospital with a normal gestational age for physiological delivery. The birth took place at 39 weeks, they ended with the birth of a healthy girl.

Therefore, the proposed method for infrared diagnostics of the structure of the cheek improves safety and simplifies the method of radiation diagnosis of the cheek by obtaining information in the infrared range of the natural radiation of heat from the cheek after additional physiological heating of the cheek from the oral cavity and the exclusion of chronic radiation sickness in medical personnel and mutagenic effects on the body pregnant and young children. In addition, the claimed method expands the scope, as it provides safe radiation diagnostics in pregnant women, in patients with established dental structures and problems with occlusion, as well as the need for continuous monitoring and multiple radiation diagnostics.

The invention provides an expansion of the scope, safety and simplification of the technique by reducing radiation aggressiveness, the ability of warm drinking water introduced into the mouth to warm the cheek depending on the thermal conductivity of its internal structure and the ability to measure the temperature of the cheek using non-contact infrared thermography.

Bibliography

1. A method for visualizing saphenous veins in the infrared range of the radiation spectrum according to A.A. Kasatkin. Pat. No. 2389429 Ros. Federation: Urakov A.L., Urakova N.A., Urakova T.V., Dementiev V.B., Malchikov A.Ya., Reshetnikov A.P., Sokolova N.V., Zabokritsky N.A., Kasatkin A.A., Shakhov V.I., Syutkina Yu.S. 2010. Bull. Number 14.

2. Orlova O., Soyher M.I., Soyher M.G. Hypertonicity of masticatory muscles and botulinum toxin type A (lantox) in dental practice. Doctor. 2009. No9. S.13-17.

3. Soyher M.I., Orlova O.R., Soyher M.G. Hypertonicity of the masticatory muscles and its BTA correction for aesthetic problems of the lower half of the face. Bulletin of aesthetic medicine. 2011. V. 10, No. 1. S.58-64.

Claims (1)

A method for infrared diagnostics of the structure of the cheek, including preliminary determination of the dose and introduction of a contrasting fluid into the oral cavity, the use of a radiation diagnostic apparatus with the function of imaging and recording changes in the radiation echogenicity of the cheek, characterized in that drinking water is used as a liquid at a temperature of + 42 ° C, dose it is determined by completely filling the oral cavity, water is injected for up to 3 minutes, a thermal imager with the color infrared function is used as a radiation diagnostic apparatus images of the cheek on the screen depending on its local temperature in the range + 26- + 37 ° C, the temperature is recorded by infrared thermography, carried out before the introduction of water and after the development of cheek hyperthermia, when the maximum temperature difference in its selected part is reached, thermograms are compared with each other and at a uniform temperature of the cheek, they give a conclusion about the homogeneity of the structure of the cheek, and if there is a site with local hypo- or hyperthermia, its shape, size and localization are specified, the data are analyzed and ydayut conclusion about the shape, size and localization of the spot in the cheek portion, respectively, with low or high thermal conductivity.