RU2141788C1 - Method for recording physiological parameters of dentomaxillary system - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves exiting mechanical oscillations in single or several points of dentomaxillary system. The oscillations are received, amplified, analyzed and represented in other points of dentomaxillary system. The mechanical oscillations are excited by delivering metered blow in middle part of the maxilla or mandible. The mechanical oscillations are received at the anterior wall of the external acoustic meatus by means of bright bandwidth seismic receivers inserted into the right and left ear. Signals received with the right and left seismic receivers are compared. Their equality being observed, preliminary conclusions are made that no pathology is the case. Then the received values are compared to some reference values. Relations of difference, asymmetry and similarity values are used for making conclusions concerning pathology occurred in the right or left half of a jaw. Time passed from the moment the blow was delivered to the moment reflex response signal to irritation has been received, is measured in addition and compared to some reference value. Time difference and signal difference, asymmetry and similarity characteristics are interpreted for making conclusions concerning pathology occurred in parodont and/or in the neuromuscular regulation channels of dentomaxillary system. EFFECT: enhanced accuracy of diagnosis. 2 cl

Description

 The invention relates to medicine, and more specifically to dentistry, and may find application in the diagnosis of pathology of the dentition.

 A known method for examining the lower jaw using a special device [1], which consists in the fact that diagnostic ultrasound heads (transmitting and receiving) are rigidly fixed at the same distance from the studied region of the lower jaw, with which they determine the size and configuration of the pathological area (mainly fractures). For more rigid fixation, the device is equipped with a latch and elastic rods.

 The disadvantage of this method is that this study is based on already conducted x-ray studies, because Without images, it is not possible to correctly install diagnostic ultrasound heads. The study itself is time-consuming, since it is first necessary to fix the complex mechanical design of the holder with diagnostic heads using fabric rods and ribbons on the patient's head. This method has limited functionality, because it allows you to explore only one area of the dentofacial system and does not allow you to get a comprehensive picture of its condition as a whole.

 Known phonoarthrographic method for studying the temporomandibular joint [2], which is selected as the prototype. According to this method, the patient is forced to open and close his mouth, as well as make lateral movements with his lower jaw, which causes mechanical vibrations in the temporomandibular joint. These fluctuations in the sound frequency spectrum are captured by a laryngophone (sensor) mounted on the outer surface of the ear, amplified and analyzed by constructing the amplitude-frequency characteristics of articular sounds, and are also tapped through a telephone to hear articular sounds. This method allows you to accurately capture the phonograms of the temporomandibular joint and differentiate them in appearance and size and based on this draw a conclusion about the presence of a particular pathology.

 The disadvantage of this method is that it does not allow to use only the joint and does not allow to analyze the condition of the entire jaw in the complex.

 The problem to which the invention is directed is the creation of a method that allows to register various physiological parameters of the dentofacial system in order to identify various pathologies.

 This goal is achieved by the fact that in the method of recording the physiological parameters of the dentofacial system, including the excitation of mechanical vibrations at one or more points of the system, receiving, amplifying, analyzing and displaying these vibrations at other points of the dentofacial system, in contrast to the prototype, the excitation of mechanical vibrations is carried out by dosed shock in the middle of the lower and upper jaw, the reception of mechanical vibrations is carried out on the front wall of the external auditory meatus using wide of the seismic receivers inserted in the left and right ear, the signals of the left and right seismic receivers are compared and, if they are equal, a preliminary conclusion is made about the absence of pathology, after which the obtained measurement indicators are compared with the reference ones and the presence of pathology in the left is judged by the ratios of the difference, asymmetry and similarity or the right half of the jaw.

 In addition, the goal is achieved by the fact that they additionally measure the time from the moment of shock to the reception of a signal of a reflex response to stimulation τ, compare it with a reference one, and judging by the magnitude of the time difference and the characteristics of the asymmetry difference and similarity of these signals, there is a pathology in the periodontium and / or channels of neuromuscular regulation of the dentition.

 This goal is also achieved by the fact that the measurements are carried out in a wide range of frequencies.

 The inventive method is implemented using a simple device, which is a percussion mechanism and a receiving device, consisting of a series-connected broadband seismic receiver, made in the form of a cylinder and densely filling the external auditory meatus, amplifier, analog-to-digital converter and computer.

 The inventive method is as follows.

 At the first visit to the doctor with complaints of pain in the dentition, it is important to accurately establish the painful area in order to conduct its study. However, in practice, the patient most often cannot accurately indicate the painful area, but gives a vague description. In order to initially identify the pathological area and pre-establish the diagnosis, physiological parameters are recorded in this way. The patient is seated in a dental chair, explain the meaning of the study and the methodology of its implementation. After that, special geophones are inserted into the external auditory canals of the patient to a depth of about 2 cm. A dosed impact of 0.2 N is applied to the middle part of the upper or lower jaw. The vibrations of the front wall of the auditory meatus are taken with the help of geophones in a wide frequency range on the left and right sides. The amplitude-frequency characteristics (AFC) from the left and right sides are entered on the computer screen. If necessary, the frequency response can be printed on paper and / or entered into a data bank. In addition, the time τ is recorded from the moment of the impact to the reception by the geophones of the reflex response to the impact, which is used to judge the nature of neuromuscular regulation.

 This method also allows you to analyze articular noise in the temporomandibular joint by a known method [2].

 Example 1. Patient K., 47 years old, complained of discomfort in the lower jaw. I couldn’t indicate exactly on which side I felt pain. Examination of the teeth did not reveal the causes of pain. It was decided to examine the entire lower jaw. Geophones were inserted into the external auditory canals of both ears of the patient to a depth of about 2 cm, the outputs of which were connected to amplifiers and ADCs with a computer. The impact mechanism delivered a metered blow of 0.2 N at the midpoint of the chin. The magnitude of the amplitude of the mechanical vibrations of the front wall of the external auditory canal was recorded using a geophone. The amplitudes of the oscillations that came to the geophones in response to the impact were compared. A stronger attenuation of the amplitude occurred on the right side, which led to the conclusion about the heterogeneity of the right side of the lower jaw and the presence of soft tissues in it, which are the worst conductor of mechanical vibrations compared to bone tissue. Analysis of the amplitude-frequency characteristics revealed the presence of peaks at high frequencies (of the order of 5-10 kHz), which allowed us to conclude that there are voids in the bone tissue and to make a preliminary diagnosis - a cyst in the lower jaw on the right.

 X-ray examination confirmed this diagnosis.

 Example 2. Patient K., 21 years old, complained of pain in the region of the lower jaw on the right, sharply intensifying with chewing movements. The pain arose as a result of the injury. Studies on the proposed method (a blow in the chin area) revealed a difference (more than 38%) of the signals of the left and right geophones. Based on this, a preliminary diagnosis was made - a fracture of the lower jaw on the left.

 An X-ray examination confirmed the diagnosis.

 Example 3. Patient J., 32 years old, was taken to an emergency room of an emergency hospital with injuries of the maxillofacial region. A study on the proposed method (dosed stroke in the upper jaw) revealed an excess of the signal on the right side over the signal on the left side. It became clear that there was a violation of the integrity of the jaw on the left, resulting in increased attenuation of the signal. A preliminary diagnosis was made - a fracture of the upper jaw on the left. An X-ray examination showed the presence of a multiple fracture of the upper jaw on the left.

 Example 4. Patient S., 19 years old, is observed at the dental surgeon after resection of the fourth left lower tooth 4 months ago. A survey of the proposed method showed a tendency to align the signals of the left and right geophones in comparison with the signals taken 1 month after the operation. This gave reason to think about the normal course of regeneration of a postoperative bone defect. Conducted x-ray confirmed the assumption.

 Example 5. Patient D., 42 years old, complained of clicks in the temporomandibular joint (TMJ) with movement of the lower jaw, uneven opening of the mouth. Conducted contrast radiography of the TMJ did not reveal joint pathology. Examination by the claimed method revealed a lag in the reflex response to stimulation τ on the right side. A preliminary diagnosis was made - TMJ dysfunction, painless form. Additional observation and consultation by a neurologist confirmed the diagnosis. After treatment, the patient's condition improved. Repeated examination by the proposed method showed the alignment of the reflex response to stimulation τ on both sides.

 Thus, in one study, all the most informative parameters of the dentition are recorded. It becomes possible, before an X-ray examination, and sometimes even without it, to make a diagnosis and prescribe adequate treatment. The data obtained as a result of the study are entered into the database and serves to monitor the patient in dynamics. It is very valuable that data can be obtained that cannot be obtained by any of the known research methods, such as, for example, ultrasound or probing by vibrational action - a reflex response to a dosed shock.

 The method is simple, affordable, cheap and does not cause the patient unpleasant sensations.

Claims (2)

 1. The method of recording physiological parameters of the dentition, including the excitation of mechanical vibrations at one point in the system, the reception, the effort to analyze and display these vibrations at another point in the system, characterized in that the excitation of mechanical vibrations is carried out by means of a dosed shock in the middle of the lower or upper jaw, reception of mechanical vibrations is carried out using broadband geophones inserted into the left and right auditory canals, the parameters of geophones are compared and when they are They make a preliminary conclusion about the absence of pathology, after which they compare the obtained indicators with the reference ones and judge by the magnitude of the difference, asymmetry and similarity about the presence of pathology on the left or right side.  2. The method according to claim 1, characterized in that it additionally measures the time from the moment of shock to the reception of a signal of a reflex response to irritation, compares it with a reference one and judges the presence of pathology in the periodontium by the magnitude of the time difference and the characteristics of the asymmetry difference and the similarity of these signals / or channels of neuromuscular regulation of the dentition.