RU2351274C2 - Method of determination of oral cavity hygiene using spectrolux method - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention concerns medicine area, and is more concrete to stomatology. Local sites of Ramfjord teeth or implants corresponding to them are influenced with optical probing radiation raising fluorescence. Simultaneously intensity of probing radiation reflected from each of investigated teeth or implants corresponding them by means of optic-electronic agents and as integrated value of spectral intensity of fluorescence of the same local sites is measured, first two of which on equator and cervical area are located on axis of each investigated tooth or implant corresponding to them, and others two - on cervical area near to corresponding interdental intervals. After that cleaning of the teeth or implants is carried out with use of tooth-paste, thus periodically interrupting process of cleaning and after an oral cavity gargle, determining each time, at least for one of mentioned above local sites, changing towards augmentation of intensity of the probing radiation reflected from it, and at augmentation not less than on 40% of intensity of the probing radiation reflected from controllable local site operation of cleaning of teeth stop and it is repeated on the same local sites of the same investigated teeth or implants corresponding to them measuring intensity of the reflected probing radiation and integrated value of spectral intensity of fluorescence. Hygiene of oral cavity is estimated on averaged on all i to the investigated teeth or implants corresponding to them to the size of Kn factor which is function of sizes:

where S₁ (1) and S₁ (2) - accordingly intensity of the probing radiation reflected from i - local site before cleaning of teeth or implants; S₂ (1) and S₂ (2) - integrated value of spectral intensity of fluorescence i - local site before cleaning of teeth or implants; i=1,2,3 and 4.

EFFECT: method allows to raise reliability of definition of hygiene of oral cavity at simultaneous essential depression of probability of entering of infection in oral cavity, at the expense of use of optic-electronic agents and fibre-optic probes for measurement of changes (as a result of usual cleaning of teeth by tooth-paste) optic-fluorescent parametres of the Ramfjord teeth.

6 cl, 2 dwg, 1 tbl

Description

The invention relates to medicine, and more particularly to dentistry.

From the level of development of technology, a method for determining oral hygiene (hygiene index according to Fedorov-Volodkina) is known, including coloring the labial surfaces 41, 42, 43, 31, 32 and 33 of the teeth with any dye, and then a visual assessment of the intensity of staining of plaque, with this is judged by the hygiene of the oral cavity by the intensity of the color [1]. This method is taken as a prototype.

A disadvantage of the known method for determining oral hygiene is that it does not provide reliable results, since it is based on a subjective assessment by a physician of the color of plaque. In addition, the introduction of a dye into the patient’s oral cavity creates additional inconvenience in the implementation of the method, since it is necessary to take certain measures to prevent infection in the oral cavity.

The present invention is aimed at solving the technical problem of improving the reliability of determining oral hygiene while significantly reducing the likelihood of infection in the oral cavity through the use of optoelectronic devices and fiber optic probes to measure changes (as a result of conventional tooth brushing with toothpaste) fluorescence parameters of Ramfjord teeth.

The problem is solved in that in the method for determining oral hygiene according to the invention, they stimulate fluorescence with optical probe radiation on local areas of the Ramfjord teeth or their corresponding implants, while using optical-electronic means, the intensity of the probe radiation reflected from each of the studied teeth or corresponding implants, as well as the integral value of the spectral intensity of fluorescence of the same local areas, the first two and of which are located on the equator and the cervical region along the axis of each tooth under study or the corresponding implant, and the other two are located on the cervical region near the corresponding interdental spaces, then the teeth or implants are cleaned using toothpaste, while periodically interrupting the cleaning process and after rinsing the oral cavity, each time determine, at least for one of the above local areas, a change in the direction of increasing the intensity of the reflected probe from it and radiation, and with an increase of not less than 40% in the intensity of the probe radiation reflected from the controlled local area, the tooth brushing operation is stopped and the intensity of the reflected probe radiation and the integral value of the spectral intensity are measured again in the same local areas of the same studied teeth or their corresponding implants. fluorescence, and oral hygiene is judged by the value of the coefficient K _n averaged over all i studied teeth or their corresponding implants, which is is a function of

where S ₁ (1) and S ₁ (2) are, respectively, the intensity of the probe radiation reflected from the i - local area before and after brushing your teeth or implants; S ₂ (1) and S ₂ (2) - the integral value of the spectral fluorescence intensity of i - local area before and after brushing your teeth or implants; i = 1, 2, 3, and 4.

In addition, the task is solved in that - the coefficient K _n for each tooth or implant is calculated according to the following mathematical dependence:

where S ₁ (1) and S ₁ (2) are the intensity of the probe radiation reflected from the i - local area, measured before and after brushing the teeth or implants, respectively;

S ₂ (1) and S ₂ (2) - respectively, the integral value of the spectral intensity of fluorescence i - local area measured before and after brushing your teeth or implants;

- additionally measure the intensity S ₁ (0) of the probe radiation reflected from the reference sample, and the integral value S ₂ (0) of the spectral intensity of fluorescence of the reference sample in the same wavelength range as for similar measurements on Ramfjord teeth or their corresponding implants, and the coefficient K _n 'for each examined tooth or implant is calculated according to the following mathematical dependence:

- oral hygiene is judged on the basis of the following inequalities:

- хорошая гигиена полости рта;

- good oral hygiene;

- плохая гигиена полости рта;

- poor oral hygiene;

и

- удовлетворительная гигиена полости рта, при этом, если

, дополнительно осуществляют чистку зубов или имплантатов с использованием зубной пасты с более высокими абразивными параметрами и/или используют более эффективный метод чистки до увеличения интенсивности зондирующего излучения, отраженного от контролируемого локального участка, не менее чем на 55% по сравнению с интенсивностью, измеренной на этом же участке того же зуба или имплантата до первоначальной чистки зубов, после этого на тех же локальных участках исследуемых зубов или соответствующих им имплантатов измеряют интенсивность S₁" (2) отраженного зондирующего излучения и интегральное значение спектральной интенсивности S₂" (2) флуоресценции, при этом коэффициент K_n" для каждого исследуемого зуба или имплантата определяют по зависимости:

and

- satisfactory oral hygiene, if

additionally carry out brushing of teeth or implants using toothpaste with higher abrasive parameters and / or use a more effective brushing method to increase the intensity of the probe radiation reflected from the controlled local area by at least 55% compared with the intensity measured on this the same area of the same tooth or implant before the initial brushing, after which the intensity S _{1 is} measured in the same local areas of the teeth being examined or their corresponding implants "(2) reflected probe radiation and the integral value of the spectral intensity S ₂ " (2) fluorescence, the coefficient K _n "for each examined tooth or implant is determined by the dependence:

and again, oral hygiene is judged by size

используя вышеприведенные неравенства;

using the above inequalities;

where S ₁ "(1) and S ₁ " (2) are the intensity of the probe radiation reflected from the i - local area, measured before and after repeated brushing of teeth or implants;

S ₂ "(1) and S ₂ " (2), respectively, the integral value of the spectral intensity of fluorescence i - local area measured before and after repeated brushing of teeth or implants,

S ₁ "(0) and S ₂ " (0) are, respectively, the intensity of the probe radiation reflected from the reference sample, and the integral value of the spectral fluorescence intensity of the reference sample after repeated brushing of teeth or implants.

- as the optical probe radiation using radiation from a helium-neon laser;

- before and after brushing your teeth or implants, they additionally act with the same probe radiation on the local area i = 5 of the Ramfjord teeth or their corresponding implants located on the axis of the tooth or implant near its cutting edge, at the same time measure the intensity of the probe radiation reflected from this local area, as well as in the same wavelength range as in other local areas, the integral value of the spectral intensity of fluorescence, in addition, additionally before and after brushing your teeth or implant tats, the oral fluid is sampled, the predetermined volume of which after filtration is placed in the optical cuvette and then the oral fluid of the same probe radiation is located in the optical cuvette and the intensity of the probe radiation reflected from it and the integral value of the spectral intensity of the fluorescence of the oral fluid are measured, and oral hygiene independent of the toothpaste used is judged on the basis of the following inequalities: if G≥0.9, consider oral hygiene choir necks, at G≤0,28 - poor oral hygiene, when 0,28 <G <0,4 and 0,6 <G <0,9 - satisfactory hygiene of the oral cavity, wherein

S ₁ '(1) and S ₁ ' (2), respectively, the intensity of the probe radiation reflected from the oral fluid, measured before and after brushing the teeth or implants,

S ₂ '(1) and S ₂ ' (2) are the integral value of the spectral intensity of fluorescence of the oral fluid, measured before and after brushing your teeth or implants, respectively.

The advantage of the proposed method for determining oral hygiene over the well-known one, taken as a prototype, is that it is based on not only the presence and initial (everyday) condition of plaque on the patient’s Ramfjord’s teeth, but also on the basis of structural, mechanical and medical biological parameters of plaque, which (as was experimentally established by direct measurements of the parameters of the microflora of the oral cavity in the same patients) are interrelated with the results of repeated measurements of optical fluorescence parameters of local sections of individual teeth after brushing with toothpaste to a certain (not less than 40%) increase in their reflectivity. In addition, the use of optical-electronic means for studying the optical-fluorescence parameters of local areas of Ramfjord's teeth made it possible to exclude not only the influence of the subjective factor on the measurement results, but also significantly reduce the likelihood of infection in the patient's oral cavity even when using fiber-optic probes. Significant from the point of view of ensuring a high reliability of determining oral hygiene are the signs of the method concerning the (experimentally determined) minimum number and location of controlled local areas on the Ramfjord teeth or their corresponding implants, between the optical fluorescence parameters of the microflora of the oral cavity there is the greatest correlation dependence.

An additional increase in the reliability of determining oral hygiene (according to the proposed method) is provided by increasing the accuracy of the measurements themselves of the controlled parameters.

Thus, the use of comparison samples in the implementation of the proposed method improves the accuracy of determining the optical fluorescence parameters of the controlled areas of the Ramfjord teeth or their corresponding implants by eliminating the error due to both the fluorescence of the tooth tissue or the material from which the implant is made, and their effect on the intensity of the reflected probe radiation (reflectivity of controlled teeth or implants).

The use of a He-Ne laser as an optical radiation source makes it possible, on the one hand, to simplify the hardware implementation of the proposed method (there is no need to use an expensive narrow-band optical filter), and, on the other hand, to improve measurement accuracy by improving the signal-to-noise ratio .

As for the pre-and post-brushing of the teeth, additional measurements of the optical fluorescence parameters of the local area of the Rumfjord teeth and their corresponding implants, which is located on the axis of the tooth or implant near its cutting edge, as well as the optical fluorescence parameters of the oral fluid, have eliminated the influence of the form used toothpaste on the final measurement result. In other words, expand the capabilities of the method.

Figure 1 schematically shows a tooth (implant); figure 2 - a device for measuring the optical fluorescence parameters of local areas of teeth (implants) and oral fluid.

According to the proposed method for determining oral hygiene, optical-fluorescence parameters of four main local sections 1, 2, 3 and 4 (Fig. 1) of the Ramfjord teeth or their corresponding implants and one additional local section 5 are measured.

Local sections 1 and 2 are located on the axis 6 of tooth 7, respectively, at the equator and on the cervical region. Two other main local sites 3 and 4 are located on the cervical region of the tooth 7 near the corresponding interdental spaces. An additional local section 5 is located on the axis 6 of the tooth 7 near its cutting edge.

A device for implementing the proposed method comprises a narrow-band source 8 (He-Ne laser in the preferred embodiment of the method) of optical probe radiation causing fluorescence of plaque and oral fluid, a spectrometer 9 with parallel or sequential photoelectric signal registration at a wavelength of source 8, and signals corresponding to the spectral components of the radiation in the fluorescence wavelength range of the studied objects with their subsequent summation. In addition, the device contains an optical fiber probe in the form of an optical fiber cable 10 (preferably with irregular stacking of optical fibers), one end of which is split into a first group of (lighting) optical fibers 11 and a second group of (receiving) optical fibers 12, the ends of which are optically coupled respectively to the output of the source 8 of the optical sounding radiation and to the output of the spectrometer 9.

A method for determining oral hygiene is as follows. The stimulating fluorescence of plaque and oral fluid is affected by narrow-band optical probe radiation (in a preferred embodiment of the proposed method by means of He-Ne laser radiation) sequentially on local sections 1, 2, 3 and 4 of the Rumfjord teeth or their corresponding implants. At the same time, the intensity of the probe radiation reflected from each local area of 1 ÷ 4 teeth under study is measured using optical-electronic means, the number of which is selected from 3 to 9 (or at least 3), as well as the integral value of the spectral intensity of fluorescence of the same local areas. To do this, the end face of the unsplit portion of the fiber-optic cable 10 is fed in series to each local area 1 ÷ 4 of the teeth or implants under investigation. As a result, the laser radiation from the source 8 along the first group of (illuminating) optical fibers 11 is directed to a controlled local area of the tooth or implant. A part of the laser radiation stream emerging from the first group of optical fibers 11, reflected from the surface of the monitored area, is returned to the fiber optic cable 10, while the laser radiation entering the second group of (receiving) optical fibers 12 is sent to the spectrometer 9. Another part of the output from the first group of optical fibers 11, the laser radiation flux is absorbed in plaque and tissues of the tooth or material from which the implant is made. As a result of absorption of laser radiation, fluorescent radiation arises, which is characterized, in particular, by the distribution of its intensity over wavelengths — spectral intensity. The part of the fluorescence radiation propagating towards the unsplit end of the fiber-optic cable 10 along the second group of optical fibers 12 is sent to a spectrometer 9, which measures the intensity of the probe radiation reflected from the corresponding local area 1-4 of the studied teeth or their corresponding implants, as well as the integral the value of the spectral intensity of the luminescence of the same areas. This completes the first measurement phase.

After that, using toothpaste, teeth or implants are cleaned, and periodically (interrupting the cleaning process and after rinsing the oral cavity) each time, the intensity of the probe radiation reflected from the surface of at least one of the local areas, preferably located axis 6 of one of the examined teeth or implants, and comparing these measured values with those obtained at the first stage of measurements (before brushing your teeth) in the same local area of the same studied tooth.

If during the brushing of teeth or implants the intensity of the probe radiation reflected from the local area controlled during the brushing process does not change compared to the previously measured before brushing, then brushing of the teeth or implants is continued using another paste with higher abrasive characteristics. On the other hand, the use of toothpaste with very high abrasive characteristics can, in some cases, lead to damage to the surface of the teeth. As a result of an increase in the roughness of the controlled local area, the intensity of the probe radiation reflected from this area will decrease during the cleaning process. In this case, it is also necessary to replace the paste with another one with lower abrasive characteristics, since in the implementation of the proposed method, only those toothpastes should be used, when cleaning, the intensity of the probe radiation reflected from the controlled local area increases.

With an increase (by brushing with toothpaste) of not less than 40% of the intensity of the probe radiation reflected from the controlled local area, the operation of brushing the teeth and / or implants is stopped and the intensity is measured again in the same local areas of the same teeth being studied or their implants reflected probe radiation and the integral value of the spectral intensity of fluorescence. It should be noted here that the lower limit (40%) of the increase in the intensity of the reflected probe radiation indicated above was chosen because (as experiments have shown) in 87% of cases this is enough to uniquely determine oral hygiene. The use of higher values of the lower limit (for example, 55% and higher) will lead, on the one hand, to an increase in the effectiveness of the proposed method, but, on the other hand, will lead to an unreasonable increase in the duration of the operation of brushing teeth and / or implants for the vast majority of patients.

Further, based on the intensities S ₁ (1) and S ₁ (2) of the probe radiation measured respectively before and after brushing the teeth and / or implants, reflected from the local areas of 1 ÷ 4 of the studied Ramfjord teeth or their corresponding implants, and also measured respectively before and after cleaning the teeth and / or implants integral values of the spectral intensity S ₂ (1) and S ₂ (2) of the fluorescence of the same portions of the same teeth and / or their corresponding implant was determined for each test tooth, n-th investigated tooth or implant factor itsient K _n, which is generally a function of values

where i is the number of the local area (i = 1, 2, 3, and 4), S ₁ (1) and S ₁ (2) are the intensities of the probe radiation reflected from the i-th local area before and after brushing or implants; S ₂ (l) and S ₂ (2) - respectively, the integral value of the spectral fluorescence intensity of the i-th local area before and after brushing teeth or implants. In this case, oral hygiene is judged by the coefficient averaged over all N studied teeth or their corresponding implants, namely:

However, the definition of oral hygiene using the expressions (1) and (2) does not provide a sufficiently high reliability in the study of patients with good oral hygiene. The fact is that the measured (as described above) intensities S ₁ (1), S ₂ (2), S ₂ (1) and S ₂ (2) of the local areas of the Ramfjord teeth or their corresponding implants depend not only on the optical fluorescent plaque parameters, but also from the same parameters of tooth tissues or the material from which the implants are made. Moreover, the better oral hygiene, the greater the influence on the measurement results of the optical-luminescent parameters of the controlled local areas have the optical-luminescent properties of tooth tissue or implant material. In addition, the high reproducibility of the results when using the expressions (1) and (2) for determining oral hygiene is ensured if the same toothpaste is used in the implementation of the method.

In a preferred embodiment of the method for determining oral hygiene, the intensity S ₁ (0) of the same probe radiation reflected from the reference sample is additionally measured and the integral value S ₂ (0) of the spectral fluorescence intensity of the reference sample in the same wavelength range as with similar measurements on Rumfjord's teeth or their corresponding implants. At the same time, intact tooth tissues - tooth cleavage are used for teeth as a comparison sample, and materials from which they are made for implants. Carrying out the above additional operations on comparison samples (intact tooth tissues - its cleft and on the material from which the implants are made) allows us to obtain the values of optical-fluorescent parameters characterizing only the activity of the microflora of the oral cavity, in other words, its hygiene. In this case, the coefficient K _n 'for each examined tooth or implant is calculated according to the following mathematical dependence:

Oral hygiene is assessed based on the following inequalities:

- хорошая гигиена полости рта;

- good oral hygiene;

- плохая гигиена полости рта;

- poor oral hygiene;

и

- удовлетворительная гигиена полости рта.

and

- satisfactory oral hygiene.

указанный выше критерий (увеличение не менее чем на 40% интенсивности отраженного зондирующего излучения) окончания операции чистки зубной пастой не позволяют с достоверностью, сравнимой с прямыми измерениями активности микрофлоры полости рта, судить о его гигиене. Поэтому в этом случае дополнительно осуществляют чистку зубов и/или имплантатов с использованием зубной пасты с более высокими абразивными параметрами и/или используют более эффективный метод чистки до увеличения интенсивности зондирующего излучения, отраженного от контролируемого локального участка, не менее чем на 55% по сравнению с интенсивностью отраженного зондирующего излучения, измеренной на этом же участке того же зуба и/или имплантата до первоначальной чистки зубов или имплантатов зубной пастой. После этого на тех же локальных участках исследуемых зубов или соответствующих им имплантатов измеряют интенсивность S₁ ^”(2) отраженного зондирующего излучения и интегральное значение спектральной интенсивности S₂"(2) флуоресценции, при этом коэффициент K_n" для каждого исследуемого зуба или имплантата определяют по зависимостиIn the case when

the aforementioned criterion (an increase of not less than 40% in the intensity of the reflected probe radiation) of the end of the toothpaste brushing operation does not allow one to judge its hygiene with a reliability comparable to direct measurements of the activity of the microflora of the oral cavity. Therefore, in this case, teeth and / or implants are additionally cleaned using toothpaste with higher abrasive parameters and / or a more effective cleaning method is used until the probe radiation reflected from the controlled local area increases by at least 55% compared to the intensity of the reflected probe radiation, measured in the same area of the same tooth and / or implant before the initial brushing of the teeth or implants with toothpaste. After that, the intensity S ₁ ^” (2) of the reflected probe radiation and the integral value of the spectral intensity S ₂ ″ (2) of fluorescence are measured at the same local areas of the studied teeth or corresponding implants, and the coefficient K _n ″ for each studied tooth or implant is determined according to

где S₁"(1) и S₁"(2) - соответственно измеренная до и после повторной чистки зубов или имплантатов интенсивность зондирующего излучения, отраженного от i - локального участка; S₂" (1) и S₂" (2) - соответственно измеренное до и после повторной чистки зубов или имплантатов интегральное значение спектральной интенсивности флуоресценции i - локального участка, S₁" (0) и S₂" (0) - соответственно интенсивность зондирующего излучения, отраженного от образца сравнения, и интегральное значение спектральной интенсивности флуоресценции образца сравнения после повторной чистки зубов или имплантатов. Повторно о гигиене полости рта судят по величине

where S ₁ "(1) and S ₁ " (2) are the intensity of the probe radiation reflected from the i - local area, measured before and after repeated brushing of teeth or implants; S ₂ "(1) and S ₂ " (2), respectively, the integral value of the spectral intensity of fluorescence i - of the local site, measured before and after repeated brushing of teeth or implants, S ₁ "(0) and S ₂ " (0) - respectively, the intensity probe radiation reflected from the reference sample, and the integral value of the spectral intensity of fluorescence of the reference sample after repeated brushing of teeth or implants. Again, oral hygiene is judged by size

при этом используют неравенства 4.1÷4.3, заменяя в них

на

while using inequalities 4.1 ÷ 4.3, replacing them

on

In another preferred embodiment, the implementation of the proposed method for determining oral hygiene in the first (before brushing) and second (after brushing) steps additionally apply the same probing radiation to the local area i = 5 of the Ramfjord teeth or their corresponding implants located on the axis of the tooth or implant near its cutting edge. At the same time, the intensity of the probe radiation reflected from this local area, as well as in the same wavelength range as in other local areas 1-4, is measured, the integral value of the spectral intensity of fluorescence. In addition, additionally, before and after brushing your teeth and / or implants, an oral fluid is taken, a predetermined volume, which, after filtration, is placed in an optical cuvette. Then, the oral fluid of the same probe radiation located in the optical cuvette is exposed and the intensity of the probe radiation reflected from the oral fluid and the integral value of its spectral fluorescence intensity are measured at the same time. In this case, oral hygiene independent of the toothpaste used is judged on the basis of the following inequalities:

(5.1) G≥0.9 - good oral hygiene;

(5.2) G≤0.28 - poor oral hygiene;

(5.3) 0.28 <G <0.4 and 0.6 <G <0.9 - satisfactory oral hygiene, where

S ₁ '(1) and S ₁ ' (2), respectively, the intensity of the probe radiation reflected from the oral fluid, measured before and after brushing the teeth or implants, S ₂ '(1) and S ₂ ' (2), respectively, measured before and after brushing teeth or implants, the integral value of the spectral intensity of oral fluorescence.

The proposed method for determining oral hygiene was tested on 63 patients. Previously, all patients were evaluated for oral hygiene based on direct measurements of the activity of the microflora of the oral cavity. After that, the oral hygiene of all patients was determined by the proposed method. The results on the determination of oral hygiene are shown in the table, which shows the number of patients (in%) in the study group who have, respectively, good, satisfactory and poor oral hygiene.

The method of determining oral hygiene Oral hygiene Direct measurements of oral microflora activity

и

с использованием неравенств 4.1÷4.3Payment

and

using inequalities 4.1 ÷ 4.3 Calculation of G and G 'using inequalities
5.1 ÷ 5.3 Good fifteen% 12% 13% Satisfactory 64% 59% 65% Bad 21% 22% 22%

The proposed method for determining oral hygiene can be used in various medical institutions, while there are no special requirements for the operator.

Literature

1. Diagnosis, treatment and prevention of dental diseases. V.I. Yakovlev et al., Higher School, 1995, p. 35.

Claims (6)

1. A method for determining oral hygiene, characterized in that they stimulate fluorescence with optical probe radiation on the local areas of the Ramfjord teeth or their corresponding implants, while using optical-electronic means measure the intensity of the probe radiation reflected from each of the studied teeth or their corresponding implants , as well as the integral value of the spectral intensity of fluorescence of the same local sections, the first two of which are at the equator and cervical the blasts are located along the axis of each studied tooth or the corresponding implant, and the other two are located on the cervical region near the corresponding interdental spaces, after which the teeth or implants are cleaned using toothpaste, while periodically interrupting the cleaning process and after rinsing the oral cavity, each time determine, at least for one of the above-mentioned local sections, a change in the direction of increasing the intensity of the probe radiation reflected from it, and with an increase of not less than at 40% of the intensity of the probe radiation reflected from the controlled local area, the tooth brushing operation is stopped and the intensity of the reflected probe radiation and the integral value of the spectral intensity of fluorescence are measured again at the same local areas of the same studied teeth and their implants, and oral hygiene is judged according to the value of Kn coefficient averaged over all i studied teeth or their corresponding implants, which is a function of

where S ₁ (1) and S ₁ (2) are, respectively, the intensity of the probe radiation reflected from the i - local area before and after brushing your teeth or implants; S ₂ (1) and S ₂ (2) - the integral value of the spectral fluorescence intensity of i - local area before and after brushing your teeth or implants; ai = 1, 2, 3 and 4. 2. The method according to claim 1, characterized in that the Kn coefficient for each tooth or implant is calculated according to the following mathematical dependence:

where S ₁ (1) and S ₁ (2) are the intensity of the probe radiation reflected from the i - local area, measured before and after brushing the teeth or implants, respectively; S ₂ (1) and S ₂ (2), respectively, the integral value of the spectral fluorescence intensity of i - the local site, measured before and after brushing your teeth or implants. 3. The method according to claim 1, characterized in that it further measures the intensity S ₁ (0) of the probe radiation reflected from the reference sample, and the integral value S ₂ (0) of the spectral fluorescence intensity of the reference sample in the same wavelength range as with similar measurements on Ramfjord’s teeth or their corresponding implants, and the K'n coefficient for each examined tooth or implant is calculated according to the following mathematical dependence:

4. The method according to claim 3, characterized in that oral hygiene is judged on the basis of the following inequalities:

- good oral hygiene;

- poor oral hygiene;

or

- satisfactory oral hygiene, if

additionally carry out brushing of teeth or implants using toothpaste with higher abrasive parameters and / or use a more effective brushing method to increase the intensity of the probe radiation reflected from the controlled local area by at least 55% compared with the intensity measured on the same area of the same tooth or implant prior to initial brushing, after which the intensity S ₁ "is measured in the same local areas of the teeth being examined or their corresponding implants (2) reflected probe radiation and the integral value of the spectral intensity S ₂ "(2) fluorescence, while the coefficient Kn" for each examined tooth or implant is determined by the dependence:

and again, oral hygiene is judged by size

using the above inequalities.
S ₁ "(1) and S ₁ " (2) - respectively, the intensity of the probe radiation reflected from the i - local area, measured before and after repeated brushing of teeth or implants; S ₂ "(1) and S ₂ " (2), respectively, the integral value of the spectral intensity of fluorescence i - of the local area, measured before and after repeated brushing of teeth or implants, S ₁ "(0) and S ₂ " (0) - respectively, the intensity probe radiation reflected from the reference sample, and the integral value of the spectral fluorescence intensity of the reference sample after repeated brushing of teeth or implants. 5. The method of claim 1, characterized in that the radiation of a helium-neon laser is used as the optical probe radiation. 6. The method according to claim 3, characterized in that before and after brushing the teeth or implants additionally apply the same probe radiation to the local area i = 5 of the Ramfjord teeth or their corresponding implants located on the axis of the tooth or implant near its cutting edge, simultaneously measure the intensity of the probe radiation reflected from this local area, as well as in the same wavelength range as in other local areas, the integral value of the spectral intensity of fluorescence, in addition, an additional o before and after brushing the teeth or implants, the oral fluid is taken, the predetermined volume, which is placed in the optical cuvette after filtration, and then the oral fluid of the same probe radiation is in the optical cuvette and at the same time the intensity of the probe radiation reflected from it is measured, and the integral value of the spectral intensity of fluorescence of the oral fluid, and oral hygiene independent of the toothpaste used is judged on the basis of the following inequalities: if G 0.9 - considered good oral hygiene, while G≤0,28 - poor oral hygiene, when 0,28 <G <0,4 and 0,6 <G <0,9 - satisfactory hygiene of the oral cavity, wherein

S ₁ '(1) and S ₁ ' (2), respectively, the intensity of the probe radiation reflected from the oral fluid, measured before and after brushing the teeth or implants, S ₂ '(1) and S ₂ ' (2), respectively, measured before and after brushing teeth or implants, the integral value of the spectral intensity of oral fluorescence.

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