RU2555762C2 - Method of caries diagnostics - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to dentistry, and can be used in diagnostics of dental caries by method of infrared spectroscopy. For this purpose sample of patient's saliva is preliminarily dries, dry residue is crushed and suspended in vaseline oil. IR-spectroscopy is carried out in spectrum area 1200-800 cm^-1 and height of peaks of absorption bands with maximums 1070, 1017, 960, 860 cm^-1 is determined. After that, values of four ratios of peak height with maximum at 1070 cm^-1 to peak height with maximum 1017 cm^-1, peak height with maximum at 1070 cm^-1 to peak height with maximum 960 cm ^-1, peak height with maximum at 1070 cm^-1 to peak height with maximum 860 cm ^-1, ratio of peak height with maximum at 1017 cm^-1 to peak height with maximum 860 cm^-1. Dental caries is diagnosed at the following values of ratios of peak heights 1070/1017, equal to 11.64±0.14, peak heights 1070/960, equal to 1.08±0.12, peak heights 1070/860, equal to 6.40±0.41, and peak heights 1017/860, equal to 4.15±0.44.

EFFECT: invention provides self-descriptiveness of diagnostics and increases its accuracy.

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Description

The invention relates to medicine, namely to the study of biological fluid using physical and chemical research methods, and can be used in dentistry for the diagnosis of dental caries.

Diagnosis of the carious process is quite a challenge for the dentist. Timely not detected and, accordingly, untreated caries can adversely affect the result of treatment already carried out. The following methods are currently used to diagnose caries: clinical examination, X-ray examination, transillumination, caries markers, laser diagnostics, electrodontometry (Dentistry Manual / edited by V. Bezrukov, Medicine, 1998, 656 pp.).

However, the known diagnostic methods have a number of disadvantages: complexity of execution, low sensitivity, high cost, subjectivity. The search for non-invasive screening methods for caries diagnostics, which are simple and fast, remains relevant today.

A known method for the diagnosis of dental caries by the content of cholesterol esters in mixed saliva (RF Patent No. 2120127 C1, IPC G01N 33 | 92 of 10/10/98. Bull. No. 28).

A known method is as follows. Mixed saliva is sampled by spitting into clean tubes. Lipids from 2 ml of mixed saliva of the subject are extracted with a mixture of chloroform-methanol 1: 2 (by volume), then filtered, washing the filter cake three times with a mixture of chloroform-methanol 2: 1. The filtrate is washed with 0.02% CaCl ₂ , and then three times with a mixture of chloroform-methanol - 0.02% CaCl ₂ (3:48:47). Then the material is evaporated and dissolved in 25 μl of a mixture of chloroform and methanol 2: 1, after which the test sample is applied to a chromatographic plate obtained by precipitation of silica gel from diluted aqueous suspensions containing 2.5% K ₂ CO ₃ , the presence of which ensures the isolation of lipid fractions horizontal flow chromatography in a heptane-ether-ethyl acetate 12: 9: 0.6 system. The identification of cholesterol esters is carried out using "witnesses" of cholesterol esters from Sigma (USA) and color tests. The quantitative content of cholesterol esters is determined by densitometric method and calculated in mg / 100 ml of mixed saliva.

The known method is quite time-consuming and very expensive, since it will take a lot of time, equipment and tools to complete all of these steps. Using the known method for mass inspections seems problematic due to the multi-stage method, the presence of the necessary chemical reagents and chemical equipment for chromatography.

Closest to the claimed method according to the set of essential features and the technical result achieved is a known method for the diagnosis of dental caries, selected by the authors as a prototype, including the study of a saliva sample by infrared spectroscopy (IR spectroscopy) (RF patent No. 2144350, IPC G01N 33 | 483, published on March 20, 2001).

The known method is as follows.

A sample of mixed saliva after purification from mechanical impurities by filtration is placed in a cuvette of an IR analyzer, which is a 9-channel spectrophotometer operating in the wavelength range from 2 to 12 μm (3500-963 cm ^-1 ). Determine 30 values of the transmittance of infrared radiation every second. Based on the data obtained, the total dispersion is calculated. With a dispersion value below 117 ± 10, an active course of caries is predicted. The method allows with high accuracy to determine groups of individuals at increased risk during medical examination.

However, the main disadvantage of this method is that the measurement is carried out on a hardware-software complex inaccessible to clinics, since it is a development of the authors, which makes the known method irreproducible. Moreover, since the device is not standardized and untrusted, the accuracy of the diagnosis declared by the authors is doubtful. In addition, saliva filtration reduces the accuracy of the analysis due to the partial adsorption of analytical substances to the filter material.

The task of the invention is to develop an accurate, simple and informative method for the diagnosis of dental caries.

The problem is solved in that in the known method for the diagnosis of dental caries, including the study of a saliva sample by infrared spectroscopy, the saliva sample is first dried, the dry residue is ground and suspended in liquid paraffin, IR spectroscopy is carried out in the spectral region of 1200-800 cm ^-1 , determined the height of the peaks of the absorption bands with maxima of 1070, 1017, 960, 860 cm ^-1 , calculate the ratio of the height of the peak with a maximum at 1070 cm ^-1 to the height of the peak with a maximum of 1017 cm ^-1 , the ratio of the height of the peak with a maximum at 1070 cm ^-1 to you OTE peak with a maximum at 960 cm ^-1, the maximum peak height at 1070 cm ^-1 to the peak with the maximum height of 860 cm ^-1, the peak height ratio of peak at 1017 cm ^-1 to the peak with a maximum height of 860 cm ^-1 and the value of the ratio of the heights of the peaks 1070/1017 equal to 11.64 ± 0.14, the value of the ratio of the heights of the peaks 1070/960 equal to 1.08 ± 0.12, the value of the ratio of the heights of the peaks 1070/860 equal to 6.40 ± 0.41 , and a ratio of the heights of the peaks 1017/860 equal to 4.15 ± 0.44, dental caries is diagnosed.

The present invention meets the criterion of "novelty", as the patent information research conducted did not reveal the patent and scientific literature that would discredit the novelty of the invention.

The present invention meets the criterion of "inventive step", since there are no revealed methods for diagnosing caries with essential features of the proposed method. A range of absorption bands and peak heights are designed to diagnose dental caries. The technical result of the proposed method is the development of an accurate, informative and simple method for the diagnosis of dental caries. Preliminary preparation of a saliva sample before infrared spectroscopy in the form of drying and suspension in liquid paraffin allows you to save all the analytes of saliva, which increases the accuracy of diagnosis. The proposed method can be used as a screening diagnosis of a large population of patients due to its simplicity and through the use of a commonly available standard IR spectrophotometer.

The proposed method is implemented as follows.

A sample of the patient's saliva is preliminarily prepared by drying the saliva, grinding the dry sediment and suspension in liquid paraffin. Carry out a study by IR spectroscopy of a sample of the patient's saliva in the region of the absorption spectra of 1200-1000 cm ^-1 . The peak heights of the absorption bands with the maxima of 1070, 1017, 960, 860 cm ^-1 are determined, the ratio of the peak height with a maximum at 1070 cm ^-1 to the peak height with a maximum of 1017 cm ^{-1 is} calculated, the ratio of the peak height with a maximum at 1070 cm ^-1 to the height of the peak with a maximum of 960 cm ^-1 , the ratio of the height of the peak with a maximum at 1070 cm ^-1 to the height of the peak with a maximum of 860 cm ^-1 , the ratio of the height of the peak with a maximum at 1017 cm ^-1 to the height of the peak with a maximum of 860 cm ^-1 and upon receipt of the value of the ratio of the height of the peaks 1070/1017 equal to 1.64 ± 0.14), the value of the ratio of the peaks of 1070/960 equal to 1.08 ± 0.12, the value of the ratio of the height of the peaks of 1070/860 equal to 6.40 ± 0.41, and the values of the ratio of the height of the peaks of 1017/860 equal to 4.15 ± 0.44, tooth decay is diagnosed.

The proposed method was a differential diagnosis of dental caries in 60 patients with dental caries. All these diagnoses were confirmed by clinical diagnostic methods.

Examples of specific implementation of the proposed method are given in the form of test reports.

Example 1

Patient Runova O.A., 26 years old

Diagnosis: Dental caries

The proposed method was used to study a patient’s saliva sample by IR spectroscopy in the range of 1200-1000 cm ^-1 , for this a saliva sample was previously prepared by drying, grinding and suspension in liquid paraffin, after recording the spectrum, the peak height of the absorption bands with maxima of 1070 was determined; 1017; 960; 860 cm ^-1 and calculated the ratio of the heights of the peaks, which amounted to: 1.53 for the ratio of the height of the peak with a maximum at 1070 cm ^-1 to the height of the peak with a maximum of 1017 cm ^-1 ; 0.96 for the ratio of peak height with a maximum at 1070 cm ^-1 to peak height with a maximum of 960 cm ^-1 ; 6.07 for the ratio of peak height with maximum at 1070 cm ^-1 to peak height with maximum 860 cm ^-1 ; 4.31 for the ratio of peak height with maximum at 1017 cm ^-1 to peak height with maximum 860 cm ^-1 . Based on the obtained values, the diagnosis was made: tooth decay.

Example 2

Patient A. Kovtunov, 45 years old

Diagnosis: Dental caries

The proposed method was used to study a patient’s saliva sample by IR spectroscopy in the region of 1200-1000 cm ^-1 , for this a saliva sample was previously prepared by drying, grinding and suspension in liquid paraffin, after recording the spectrum, the peak height of the absorption bands with maxima of 1070 was determined; 1017; 960; 860 cm ^-1 and calculated the values of the ratio of the heights of the peaks, which amounted to: 1.68 for the ratio of the height of the peak with a maximum at 1070 cm ^-1 to the height of the peak with a maximum of 1017 cm ^-1 ; 1.19 for the ratio of peak height with maximum at 1070 cm ^-1 to peak height with maximum 960 cm ^-1 ; 6.79 for the ratio of peak height with a maximum at 1070 cm ^-1 to peak height with a maximum of 860 cm ^-1 ; 4.01 for the ratio of peak height with a maximum at 1017 cm ^-1 to peak height with a maximum of 860 cm ^-1 . Based on the obtained values, the diagnosis was made: tooth decay.

Example 3

Patient Babushkina L.N., 35 years old

Diagnosis: Healthy

The proposed method was used to study a patient’s saliva sample by IR spectroscopy in the range of 1200-1000 cm ^-1 , for this a saliva sample was previously prepared by drying, grinding and suspension in liquid paraffin, after recording the spectrum, the peak height of the absorption bands with maxima of 1070 was determined; 1017; 960; 860 cm ^-1 and calculated the ratio of peak heights, which amounted to: 0.93 for the ratio of peak height with a maximum at 1070 cm ^-1 to peak height with a maximum of 1017 cm ^-1 ; 0.64 for the ratio of peak height with a maximum at 1070 cm ^-1 to peak height with a maximum of 960 cm ^-1 ; 2.07 for the ratio of peak height with a maximum at 1070 cm ^-1 to peak height with a maximum of 860 cm ^-1 ; 2.21 for the ratio of peak height with a maximum at 1017 cm ^-1 to peak height with a maximum of 860 cm ^-1 . Based on the obtained relationship values, the diagnosis was made: healthy.

Claims (1)

A method for the diagnosis of caries, including the study of a saliva sample by IR spectroscopy, characterized in that the saliva sample is dried first, the dry residue is crushed and suspended in liquid paraffin, IR spectroscopy is performed in the spectral region 1200-800 cm ^-1 , the peak height of the absorption bands is determined with maxima of 1070, 1017, 960, 860 cm ^-1 , the ratio of peak height with maximum at 1070 cm ^-1 to peak height with maximum of 1017 cm ^{-1 is} calculated, the ratio of peak height with maximum at 1070 cm ^-1 to peak height with maximum 960 cm ^-1, the altitude peak with a maximum at 1070 cm ^-1 to the peak height of the peak 860 cm ^-1, the peak height ratio of peak at 1017 cm ^-1 to the peak with the maximum height of 860 cm ^-1 and a value of ratio 1070/1017 equal 11,64 ± 0.14, a ratio of 1070/960 equal to 1.08 ± 0.12, a ratio of 1070/860 equal to 6.40 ± 0.41, and a ratio of 1017/860 equal to 4.15 ± 0.44, diagnose caries.