RU2402275C1 - Method of chewing system functioning evaluation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method of chewing system functioning evaluation refers to medicine, particularly to orthopaedic dentistry. A chewing test involves face bow recording in patients. A face bow index (FBI) is calculated by formula:

where vtµ is a wave rate with the most frequent chewing wave length in a chewing phase, vhµ is a wave rate of the same amplitude in a chewing phase, t is a duration of a chewing phase actually (s), v is a number of masticatory movements in a chewing phase, Δt is a mean difference of the length of the most frequent wave and the other chewing waves (s). If the index is 2 and more, chewing system functioning is considered to be good. If the index is less than 2, lowered system effectiveness is observed.

EFFECT: application of the method aims at the objectification of human chewing system functioning evaluation when refining a diagnosis, allows evaluating chewing system functioning, its efficiency, proving the necessity and nature of remedial rehabilitation actions.

2 ex, 4 dwg, 1 tbl

Description

The invention relates to medicine, in particular to orthopedic dentistry, and can be used to assess the functioning of the human masticatory system in clarifying the diagnosis.

The functioning of the chewing system is evaluated by the useful result of its work (chewing effectiveness) and profitability (physiological price) (Ryakhovsky A.N. . - S.36-40). The profitability of the system is determined by comparing the characteristics of the movements of the lower jaw with the optimum of efficiency, which corresponds to the most economical mode of operation. Among the described methods for the functional study of the masticatory apparatus, the leading place is held by contact masticography - graphic recording of movements of the lower jaw. The method of masticatiography was proposed by I.S. Rubinov in 1948-1954. (Rubinov I.S. Physiological tests taking into account the effectiveness of the act of chewing // Dentistry. - 1951. - No. 1. - S.51-59). The jaw movements are recorded using the device of the mastiograph.

Despite the fact that mastication is used for a very long time and is considered an informative method, still its analysis is most often descriptive in connection with significant individual characteristics of the masticatory system (Bobrov A.P. // Diseases of the person-person system and their prevention: Abstract 1 of the Congress of the Scientific Society of Dentists of Estonia. - Tallinn, 1988. - P.269-270; Leshcheva EA, Restoration of tooth element ratios lyustnoy system with loss of teeth with the use of automated computer systems, Cand ... diss Dock medical sciences - M., 2001. - 37 c)...... So far, only two of the quantitative indicators of a masticogram are taken into account: the time of chewing and the number of chewing movements (Fedorov V.I. Functional value of prosthetic devices of various designs: Diss. Perzashkevich L.M. Features of the chewing function in the period of adaptation to orthopedic devices: Diss. ... Doctoral Medical Sciences. - L., 1975 - 201 p.). One mathematical formula is known for the analysis of a mastikaciogram (V. Kondrashov // Transactions of Kalininsky Medical Institute. - 1965. - Issue 11. - S.320-323). To do this, based on the test of I.S.Rubinov and mastication, a chewing index is calculated

,

,

where I is the masticatory index, t is the duration of the masticatory phase itself, ν is the number of masticatory movements, m is the masticatory efficacy in intact dentition; t ¹ - the duration of the actual chewing phase, ν ¹ - the number of chewing movements, m ¹ - chewing effectiveness in the subject. In case of intact dentition, the chewing index is “1”; in case of violation of the chewing function, it decreases. The definition of the chewing index is based on the fact that people without pathology of the chewing apparatus to achieve 100% chewing efficiency produce 20 chewing movements in 14 seconds. However, clinical testing of this method showed that in individuals with intact dentition, the index values do not reach “1” and vary significantly. Artificial reduction of the norm of masticatory movements to 20, and the duration of the masticatory period to 14 s reduces the reliability of the evaluation of the masticatory system, since these parameters can depend on the individual characteristics of the body.

An analysis of jaw movements by two indicators does not provide the opportunity to obtain complete information about the functioning of the system. It should be noted that the assessment of biological parameters from curves of other physiological functions (ECG, rheograms, dopplerograms) has a significantly larger number of parameters, among which are amplitude, rhythm, cycle repeatability and others.

The objective of the invention: to increase the objectivity of the study of the functioning of the human chewing system by expanding the number of criteria for evaluating the movements of the lower jaw and developing a formula for an individual integrated analysis of the masticogram.

The essence of the invention lies in the fact that patients undergo a chewing test and contact masticiography, on the basis of which quantitative and qualitative characteristics of jaw movements are evaluated and a masticiographic index is calculated by the formula

,

,

where MI is a masticiographic index,

vtµ - the number of waves with the most common duration of the chewing wave in the chewing phase,

vhµ - the number of waves of the same amplitude in the chewing phase,

t is the duration of the actual chewing phase (s),

v is the number of chewing movements in the chewing phase,

Δt is the average difference between the duration of the most common wave and other chewing waves (s),

Moreover, if the index value of the subject is 2 or more, then the effectiveness of the chewing system is considered good, if the index value is less than 2, then the decrease in the effectiveness of the system is determined, which is an indication for therapeutic measures aimed at improving its performance.

The formula was developed empirically based on an analysis of 42 mastikagrami patients with intact dentitions. Indicators of mastication in patients with intact dentition are presented in the table.

A method of evaluating the functioning of the chewing system is as follows. Patients are offered to chew 0.8 g of hazelnut. In the period from the beginning of chewing to the appearance of the swallowing reflex, contact masticiography is performed. Applied device mastikatsiograf, consisting of a receiving device (Mareevskaya capsule), fixed on the patient's chin with a head cap; transmitting (membrane displacement sensor) device; as well as recording systems on a chart disc rotating clockwise at an angular speed of 360 ° per minute. The price of one horizontal division of the grid corresponds to 0.66 s, vertical - 1 mm. Figure 1 shows the marking of the mastique, where I is the resting phase, II is the phase of opening the mouth, III is the phase of indicative chewing, IV is the actual chewing phase, V is the phase of the formation of the food lump and swallowing. Figure 2 presents the parameters of the chewing wave in the actual chewing phase, where t * is the duration of one chewing wave (s); h is the wave amplitude (mm).

The processing of a masticogram is carried out in accordance with the developed scheme according to the following registered parameters:

the number of chewing movements in the chewing phase is v;

the duration of the chewing phase itself (s) - t;

the duration of one chewing wave in the chewing phase (s) - t *;

the amplitude of the wave in the chewing phase (mm) - h;

the most common chewing wave duration (s) is vtµ;

the number of waves with the most common wavelength in the chewing phase is tµ;

the number of waves of the same amplitude in the masticatory phase is vhµ.

Next, get the calculated indicator:

the average difference between the duration of the most common wave and other chewing waves (s) is Δt.

Thus, the evaluation chart for the obtained graphs is supplemented with new data on the uniformity of the amplitude and rhythm of the masticatory waves, since they are indicators of good motility of the masticatory system and its regulation from higher levels of the body.

According to the obtained data, a masticiographic index (MI) is calculated. The development of the index is based on the assertion that the effective functioning of the chewing apparatus is characterized by the rhythm and uniformity of the movements of the lower jaw with a minimum number of movements, that is, with minimal energy consumption. Therefore, the masticiographic index is directly proportional to the number of waves with the same amplitude and duration; inversely proportional to the number of chewing waves and the average difference in their duration

,

,

where MI is a masticiographic index,

vtµ - the number of waves with the most common duration of the chewing wave in the chewing phase,

vhµ - the number of waves of the same amplitude in the chewing phase,

t is the duration of the actual chewing phase (s),

v is the number of chewing movements in the chewing phase,

Δt is the average difference between the duration of the most common waves and other chewing waves (s).

It should be noted that the absolute values of the most frequent duration and amplitude of the chewing wave were not included in the formula, since they are purely individual and depend on the characteristics of the occlusion, the height of the clinical crowns of the teeth, the emotional state of the subject and other factors.

The studies performed allowed us to establish the average value of the masticiographic MI index in patients with intact dentition equal to 2.3 ± 0.3. Comparing the values of the index of mastikaciography obtained during the examination of the patient with the average value corresponding to the operation of the system with intact dentition, assess the condition of the dentofacial system and plan rehabilitation measures. Moreover, if the index value is 2.0 or more (corresponds to the optimum efficiency at the lower boundary of the obtained average index value), then the effectiveness of the chewing system is considered good. If the index value is less than 2, then the decrease in the effectiveness of the system is determined, which is an indication for therapeutic measures aimed at improving its performance.

Example 1. Patient F. went to the clinic to replace a defect in the dentition of the upper jaw. Masticiography performed. The recording of the movements of the lower jaw is presented in figure 3. The results of the analysis of the mastikagrami: vtµ - 25; vhµ - 19; t - 18.5 s; v is 28; Δt - 0.3 s, according to which the masticiographic index is calculated

The index was 3, which is more than the optimum of efficiency, equal to 2, and characterizes the state of the chewing system as good, which is not an indication for therapeutic measures.

Example 2. Patient B. has a defect in the dentition of the lower jaw. Masticiography performed. The registration of the movements of the lower jaw is presented in figure 4. The results of the analysis of the mastikaciogram: vtµ - 22; vhµ - 15; t - 22.4 s; v is 36; Δt - 0.5 s, according to which the masticiographic index is calculated

The index was 0.8, which is less than the optimum of efficiency, equal to 2, and characterizes the state of the chewing system as unsatisfactory and is an indication for prosthetics.

The method was also tested on 32 patients with defects in the dentition. A significant decrease in its indices was revealed in patients with small and medium dentition defects (missing from 1-7 teeth) to 1.7 ± 0.4; large (missing 7-13 teeth) - 1.1 ± 0.3.

Thus, the masticiographic index is a criterion for evaluating the functioning of the masticatory system, determining indications for treatment and prophylactic measures, selecting and optimizing the load level for a given masticatory apparatus. This is of particular importance in connection with the possibility of compensatory reactions in the dentofacial system in the event of defects in the dentition; the dependence of indications for prosthetics not only on the extent of the defect, but also on its location, the size of the tooth crowns, the condition of their periodontium, the type of occlusion, and other factors.

The advantages of the method:

1. The proposed method opens up new possibilities for an objective integral (quantitative and qualitative) assessment of the functioning of the motor link of a functional chewing system.

2. The method made it possible to determine the optimum parameters of the mastiogram and the mastiographic index as criteria for the cost-effective functioning of the chewing system for a reliable assessment of its functioning in each patient, including for a medical examination.

3. The method of evaluating the masticatory function provides the opportunity to determine the indications and optimize the regimen of therapeutic effects on the body of patients with malfunctioning of the masticatory system, aimed at approximating the performance indicators of the system to optimal values.

4. The proposed method provides the possibility of statistical analysis of data on the state of the masticatory system and promotes the implementation of unified requirements for the decoding of masticatiograms.

5. The developed technique is simple, does not require special conditions and sophisticated equipment.

Table Method for evaluating the functioning of the chewing system Masticogram options Brief designation Average value The total number of chewing movements (waves) v 14.5 ± 0.5 The duration of the actual chewing period t 21.4 ± 0.4 The most common chewing wave duration (s) tµ 0.7 ± 0.2 The number of waves with the most common chewing wave duration vtµ 12.1 ± 0.2 The average difference between the duration of the most common wave and the remaining chewing waves (s) Δt 0.2 ± 0.05 The number of waves of the same amplitude in the chewing phase vhµ 12.1 ± 0.2 Masticographic Index MI 2.4 ± 0.3

Claims (1)

A method for evaluating the functioning of the masticatory system according to the indicators of mastication, including conducting a chewing test, characterized in that on the basis of the mastication chart, a masticacy index is calculated by the formula

,
where vtµ is the number of waves with the most common duration of the chewing wave in the chewing phase,
vhµ - the number of waves of the same amplitude in the chewing phase,
t is the duration of the actual chewing phase (s),
v is the number of chewing movements in the chewing phase,
Δt is the average difference between the duration of the most common wave and other chewing waves (s),
Moreover, if the index value is 2 or more, then the work of the chewing system is considered good, if the index value is less than 2, then the decrease in the effectiveness of the system is determined, which is an indication for therapeutic measures aimed at improving its performance.

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