JP6709031B2 - Quantitative device for grading periodontal disease degree and quantifying program - Google Patents

Description

The present invention relates to a method of quantifying the degree of progression of periodontal disease.

A method for detecting periodontal disease using various information has been proposed. For example, Patent Document 1 describes a method for detecting the number of periodontopathic bacteria in saliva, and a method for detecting periodontal disease using the method.
Further, Patent Document 2 describes a method of determining the degree of progression of periodontal disease by using information on the age, sex, smoking and presence/absence of medication of a user.

Japanese Patent No. 4252812 Japanese Patent No. 4048262

Periodontal disease is a multifactorial disease in which factors such as bacterial infection, occlusion, inheritance, smoking, habits, and lifestyle are greatly involved, and the periodontal pathogenic bacteria count in saliva and LDH (lactic acid dehydration) as in Patent Document 1 There is a limit to the prediction using only the primary enzyme.

Further, the degree of progression of periodontal disease is not only information on the age, sex, smoking and whether or not to take medication of the user used in Patent Document 2, but also subjective symptoms such as bleeding of the gums and presence or absence of sway of teeth and life. It is known to be highly correlated with habits.

The main object of the present invention is to quantify the degree of progression of periodontal disease with higher accuracy by utilizing the number of periodontal pathogens and information on subjective symptoms and lifestyle habits.

In one aspect of the present invention, a device for quantifying the degree of progression of periodontal disease comprises an acquisition unit for acquiring the number of periodontopathic bacteria in saliva of a subject and subjective symptoms related to periodontal disease. The degree of progression of periodontal disease is calculated by summing the results obtained by digitizing the answers to the questionnaire items and generating a numerical value indicating the answer, and multiplying the numerical values indicating the bacterial count and the answer by different constants. And a digitizing means for digitizing the periodontopathic bacterium. d. Fungus and T. f. The questionnaire item regarding the subjective symptoms includes a questionnaire item regarding the presence or absence of bleeding during brushing and a questionnaire item regarding the presence or absence of a feeling of shaking of teeth, and the digitizing means is a T.I. d. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of sensation of tooth shaking, and the results of periodontal disease are calculated by summing the results obtained by multiplying different constants. Turn into .

In one aspect of the apparatus for quantifying the degree of progression of periodontal disease, the generating means further quantifies answers to questionnaire items regarding lifestyle, generates numerical values indicating the answers, and the questionnaire items regarding lifestyle is tooth brushing. Including a questionnaire item regarding the time of, and a questionnaire item regarding the presence or absence of smoking, the digitizing means further sums the results obtained by multiplying the numerical values regarding the time of brushing teeth and the numerical value regarding the presence or absence of smoking by different constants. By doing so, the degree of progression of the periodontal disease is quantified.

In another aspect of the present invention, an obtaining unit that obtains the number of periodontopathic bacteria in saliva of a subject, and a generating unit that digitizes the answers to questionnaire items regarding lifestyle and generates a numerical value indicating the answer. , The numerical value indicating the number of bacteria and the answer, by adding the results of multiplying different constants respectively, by digitizing means to quantify the degree of periodontal disease progression, the periodontal pathogenic bacteria, , T. d. Fungus and T. f. The questionnaire items regarding the lifestyle include a questionnaire item regarding the time for brushing teeth and a questionnaire item regarding the presence or absence of smoking. d. Number of bacteria, T. f. The periodontal disease progression degree is quantified by summing the results obtained by multiplying the bacterial count of bacteria, the value relating to the time of brushing teeth, and the value relating to the presence or absence of smoking by different constants.

In another aspect of the present invention, a computer-implemented program for quantifying the degree of progression of periodontal disease relates to an acquisition unit that acquires the number of periodontopathic bacteria in saliva of a subject, periodontal disease. Numbering the answers to the questionnaire items about subjective symptoms, generating means for generating a numerical value indicating the answer, the bacterial count and the numerical value indicating the answer are multiplied by different constants, and the results are summed up to the periodontal periodontium. The computer is caused to function as a digitizing means for digitizing the degree of disease progression, and the periodontopathic bacteria are d. Fungus and T. f. The questionnaire item regarding the subjective symptoms includes a questionnaire item regarding the presence or absence of bleeding during brushing and a questionnaire item regarding the presence or absence of a feeling of shaking of teeth, and the digitizing means is a T.I. d. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of feeling of tooth shaking, and a numerical value indicating the periodontal disease progression degree by summing the results obtained by multiplying different constants. Turn into.

In another aspect of the present invention, a computer-implemented program for quantifying the degree of progression of periodontal disease relates to an acquisition means for acquiring the number of periodontopathic bacteria in saliva of a subject, and a questionnaire item regarding lifestyle. Quantifying the answer, generating means for generating a numerical value indicating the answer, and quantifying the degree of periodontal disease progression by summing the results of multiplying the bacterial count and the numerical value indicating the answer by different constants. The computer is made to function as a digitizing means, and the periodontopathic bacteria are d. Fungus and T. f. The questionnaire items regarding the lifestyle include a questionnaire item regarding the time for brushing teeth and a questionnaire item regarding the presence or absence of smoking. d. Number of bacteria, T. f. The degree of periodontal disease is quantified by summing the results obtained by multiplying the bacterial count of bacteria, the value regarding the time of brushing teeth, and the value regarding the presence or absence of smoking by different constants.

In another aspect of the present invention, a device for quantifying the degree of periodontal disease progression is an acquisition means for acquiring the number of periodontopathic bacteria in saliva of a subject, and subjective symptoms related to periodontal disease. The degree of progression of periodontal disease is calculated by summing the results obtained by digitizing the answers to the questionnaire items and generating a numerical value indicating the answer, and multiplying the numerical values indicating the bacterial count and the answer by different constants. Quantifying means for quantifying P. g. Fungus and T. f. The questionnaire item regarding the subjective symptoms includes a questionnaire item regarding the presence or absence of bleeding at the time of brushing and a questionnaire item regarding the presence or absence of a sensation of tooth shaking, and the digitizing means is a P. g. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of feeling of tooth shaking, and a numerical value indicating the periodontal disease progression degree by summing the results obtained by multiplying different constants. Turn into .

In another aspect of the present invention, the apparatus for quantifying the degree of periodontal disease progression is a means for acquiring the number of periodontopathic bacteria in saliva of a subject, and quantifying answers to questionnaire items regarding lifestyle. , A generating means for generating a numerical value indicating an answer, and a numerical means for numerically measuring the degree of periodontal disease progression by summing the results of multiplying the bacterial count and the numerical value indicating the answer by different constants. And the periodontopathic bacterium is P. g. Fungus and T. f. The questionnaire items regarding the lifestyle include a questionnaire item regarding the time for brushing teeth and a questionnaire item regarding the presence or absence of smoking. g. Number of bacteria, T. f. The periodontal disease progression degree is quantified by summing the results obtained by multiplying the bacterial count of bacteria, the value relating to the time of brushing teeth, and the value relating to the presence or absence of smoking by different constants.

In another aspect of the present invention, a computer-implemented program for quantifying the degree of progression of periodontal disease relates to an acquisition unit that acquires the number of periodontopathic bacteria in saliva of a subject, periodontal disease. Numbering the answers to the questionnaire items about subjective symptoms, generating means for generating a numerical value indicating the answer, the bacterial count and the numerical value indicating the answer are multiplied by different constants, and the results are summed up to the periodontal periodontium. The computer is caused to function as a digitizing means for digitizing the degree of disease progression, and the periodontopathic bacteria are g. Fungus and T. f. The questionnaire item regarding the subjective symptoms includes a questionnaire item regarding the presence or absence of bleeding at the time of brushing and a questionnaire item regarding the presence or absence of a sensation of tooth shaking, and the digitizing means is a P. g. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of sensation of tooth shaking, and the results of periodontal disease are calculated by summing the results obtained by multiplying different constants. Turn into.

In another aspect of the present invention, a computer-implemented program for quantifying the degree of progression of periodontal disease is an acquisition means for acquiring the number of periodontopathic bacteria in saliva of a subject, and questionnaire items regarding lifestyle habits. Quantifying the answers, generating means for generating a numerical value indicating the answer, and quantifying the degree of periodontal disease progression by summing the results obtained by multiplying the bacterial count and the numerical value indicating the answer by different constants. The computer is made to function as a digitizing means, and the periodontopathic bacteria are P. g. Fungus and T. f. The questionnaire items regarding the lifestyle include a questionnaire item regarding the time for brushing teeth and a questionnaire item regarding the presence or absence of smoking. g. Number of bacteria, T. f. The periodontal disease progression degree is quantified by summing the results obtained by multiplying the bacterial count of bacteria, the value relating to the time of brushing teeth, and the value relating to the presence or absence of smoking by different constants.

Another aspect of the apparatus for quantifying the degree of progression of periodontal disease described above preferably includes report output means for outputting a report showing a value quantifying the degree of progression of periodontal disease. This report allows the subject to know his/her periodontal disease progress.

In another aspect of the present invention, the periodontal disease progression report creating device is based on the number of periodontopathic bacteria in saliva of a subject and the response to a questionnaire item about subjective symptoms related to periodontal disease. And a report output means for outputting a report showing a numerical value of the periodontal disease progression degree. This report allows the subject to know his/her periodontal disease progress.

An example of a questionnaire about subjective symptoms and lifestyle will be shown. The relationship between the number of responses to the questionnaire and the degree of periodontal disease progression in Case 1 is shown. The correlation table which correlates the number of periodontal pathogenic bacteria and a questionnaire, and the periodontal disease progress in Case 1, and categorizes the number of periodontal pathogenic bacteria is shown. The degrees of freedom adjusted coefficient in case 1 are shown. The degrees of freedom adjusted coefficient in case 2 are shown. A test kit is shown typically. The procedure of the examination by the subject is shown. A digitizer is shown. The functional structure of a digitizer is shown. It is a flowchart of a digitization process. An example of an inspection result report is shown.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[Basic principle]
A preferred embodiment of the present invention detects the number of a plurality of periodontopathic bacteria from saliva of a subject, acquires information on subjective symptoms and lifestyle of the subject by a questionnaire or the like, and uses them. To determine the degree of periodontal disease progression. Here, information on periodontopathic bacteria, which is used in determining the degree of periodontal disease progression in this embodiment, and subjective symptoms and lifestyles will be examined based on the following cases.

(Case 1)
For 210 or more adults and men and women, a dentist conducted an intraoral examination after performing the questionnaire shown in FIG. 1 regarding subjective symptoms and lifestyle related to the oral cavity. Regarding the examination results, regarding the degree of periodontal disease progression of 210 subjects, soundness, mild periodontitis, secondary, etc. in “Guideline for Examination/Diagnosis/Treatment Planning of Periodontal Disease 2008 (Japan Society of Periodontology)” The degree of gingivitis and severe gingivitis were quantified at equal intervals (0, 1, 2, 3). Hereinafter, the “progression of periodontal disease” refers to this numerical value.

At the same time, the saliva of the subject is collected, and this saliva is used as a sample for P. cerevisiae by the real-time PCR method. g. (Porphyromonas gingivalis) bacteria, T. d. (Treponema denticola) bacterium, T. f. (Tannerella forsythia) bacteria, A. a. (Aggregatibacter actinomycetemcomitans) bacteria, P. i. (Prevotella intermedia) bacteria, F. n. (Fusobacterium nucleatum) 6 periodontopathic bacteria were counted for copy number.

According to the guideline 2008 for examination/diagnosis/treatment plan of periodontal disease, periodontal disease is classified into gingivitis and periodontitis. Furthermore, periodontitis is fast with chronic periodontitis with slow periodontal tissue destruction rate. Classified as invasive periodontitis. Here, the cause of periodontal tissue destruction due to invasive periodontitis is considered to be not only the involvement of periodontopathic bacteria but also a decrease in biological defense function, a mutation in the periodontitis susceptibility gene, and the number of bacteria contained in saliva. Since it was difficult to predict only by the analysis of, the subjects diagnosed by the dentist as invasive periodontitis were excluded from the analysis.

Thus, based on the data of 199 subjects excluding the subjects with invasive periodontitis and the subjects who did not respond to the questionnaire, the periodontal disease progression degree and 6 obtained by the examination by the dentist were obtained. As a result of obtaining the partial correlation coefficient with the number of bacteria for each of the three periodontopathic bacteria, especially T. d. Fungus and T. f. Bacteria showed high values. As a result, the periodontal pathogenic bacteria used for determining the degree of periodontal disease progression include T. d. Fungus and T. f. The bacterium was found to be suitable.

Next, based on the answers to the questionnaire shown in FIG. 1, the correlation between the degree of periodontal disease obtained by the examination by the dentist and the answers to the questionnaire was examined. 2A to 2C show the relationship between the periodontal disease progression degree obtained by the medical examination and the answers to the questionnaires 2 to 4. As can be understood by comparing FIGS. 2(A) to 2(C), questionnaire 2 “Do you have bleeding during brushing?” and questionnaire 3 “Do you feel a tooth shake?” It was confirmed that the correlation was high. Therefore, it was found that the contents of questionnaires 2 and 3 are appropriate as the information used for determining the degree of periodontal disease progression.

FIG. 3(A) shows the degree of periodontal disease progression and T.I. d. Fungus, T. f. Fungus, P. g. The partial correlation coefficient with each of bacteria, questionnaire 2, questionnaire 3, and questionnaire 4 is shown. P. g. The bacterium is T. d. Fungus and T. f. Correlation with periodontal disease progression is slightly lower than that of bacteria. Therefore, it was confirmed that the correlation with the degree of periodontal disease was high. d. Fungus, T. f. A multiple regression analysis model was constructed using bacteria, questionnaire 2 and questionnaire 3 as explanatory variables, and the following judgment formula was obtained.
Periodontal disease progression degree = -0.253 + CTG_T. d. Bacteria x 0.145
+CTG_T. f. Bacteria x 0.165
+ (Questionnaire 2 answers) x 0.374
+ (Questionnaire 3 answers) x 0.386
Note that the regression coefficient of the multiple regression analysis model at this time is an estimated value of the result of analysis by 210 subjects, but by adding subjects in future surveys, a more accurate estimated value can be selected. ..

However, “CTG_T.d. bacteria” and “CTG_Tf. bacteria” are the numbers of bacteria categorized by the conversion table shown in FIG. Further, in (Questionnaire 2 answer) and (Questionnaire 3 answer), "No" is converted into "0", "occasionally" is converted into "1", and "Yes" is converted into "2".

Next, in order to evaluate the degree of progression of periodontal disease thus obtained, the "coefficient of freedom adjusted coefficient of determination" was calculated. Here, the “coefficient of determination” is an index of how much the explanatory variable can explain the objective variable in the regression model obtained by the multiple regression analysis, and the higher the better. Further, the "coefficient of determination with adjusted degree of freedom" is a coefficient of determination when the degree of freedom is adjusted.

FIG. 4 shows the calculation result of the coefficient of determination with the adjusted degrees of freedom in Case 1. As shown, the T.S. d. Bacteria and T. f. T. d. Bacteria and T. f. Higher values were obtained when using questionnaire responses regarding fungi and subjective symptoms.

From the above, from case 1, T. d. Fungus, T. f. It was found that the degree of progression of periodontal disease can be determined with high accuracy by using the number of bacteria and using questionnaires 2 and 3 as information on subjective symptoms.

(Case 2)
The same analysis was performed on 50 different subjects from Case 1. As a result, as in case 1, regarding periodontopathic bacteria, T. d. Fungus, T. f. The results showed that the bacteria had a high correlation with the degree of periodontal disease progression. Regarding the questionnaire, questionnaire 12 on lifestyle habits "Do you smoke?" and questionnaire 20 "How long does it take to brush your teeth once?" have a high correlation with the degree of periodontal disease. The result was obtained. The answers to the questionnaires 12 and 20 are digitized by the method shown in FIG.

FIG. 5B shows the calculation result of the coefficient of determination for which the degree of freedom adjustment is performed in Case 2. As shown, the T.S. d. Bacteria and T. f. T. d. Bacteria and T. f. Higher values were obtained when using questionnaire responses regarding fungi and lifestyle. In addition, higher values were obtained when using questionnaire responses regarding subjective symptoms.

From the above, from Case 2, as periodontopathic bacteria, T. d. Fungus, T. f. It was found that the degree of progression of periodontal disease can be determined with high accuracy by using the number of bacteria and using questionnaires 12 and 20 as information on lifestyle habits.

(Summary)
As described above, in the embodiment of the present invention, the periodontal pathogenic bacteria count and the periodontal disease progression degree are determined and digitized based on the answers to the questionnaire items regarding subjective symptoms or lifestyle related to periodontal disease. And Here, periodontopathic bacteria include T. d. Bacteria and T. f. It is preferred to use a combination of bacteria. However, as shown in FIG. g. The partial correlation coefficient of bacteria is T. d. It is the second highest after bacteria, so T. f. Fungus and P. g. It is considered that the degree of periodontal disease progression can be determined with relatively high accuracy even by using the combination of.

Further, as the questionnaire items regarding subjective symptoms, it is preferable to use the items regarding presence/absence of bleeding during brushing and the items regarding presence/absence of feeling of shaking of teeth. It is preferable to use items related to smoking or not and time related to tooth brushing as the questionnaire items related to lifestyle.

[Periodical disease degree judgment system]
Next, a periodontal disease progression degree determination system (hereinafter, simply referred to as “determination system”) according to an embodiment of the present invention will be described.

(Inspection kit)
FIG. 6 schematically shows the test kit 10 used for determining the degree of progression of periodontal disease. The test kit 10 is given to a subject who determines the degree of progression of periodontal disease, and includes a saliva collection tube 12, a saliva collection straw 13, a questionnaire sheet 14, and a return envelope 15 as a set. ing. The saliva collecting tube 12 and the saliva collecting straw 13 are housed in the outer box 11. In addition, actually, the inspection kit 10 includes “application form”, “terms of use”, “instruction manual” and the like in addition to these. Bar codes 11a, 12a, and 14a having the same management ID are provided on the outer box 11, the saliva collection tube 12, and the questionnaire sheet 14, respectively.

FIG. 7 shows a procedure performed by the subject. Upon obtaining the test kit 10, the subject collects saliva in the saliva tube 12 using the saliva collecting straw 13 as shown in FIG. 7(A). FIG. 7B shows the saliva collection tube 12 in a state where saliva is collected.

Further, the subject fills in the questionnaire on the answer. In addition, it is preferable that the questionnaire sheet 14 includes attribute information (personal information) such as the name, address, and age of the subject, the response to the questionnaire, and the management ID.

Then, as shown in FIG. 7C, the subject encloses the saliva collecting tube 12 and the questionnaire sheet 14 in the return envelope 15 and posts it in the post. As a result, the saliva collection tube 12 and the questionnaire sheet 14 of the subject are sent to a service provider (hereinafter, referred to as “service provider”) that determines the degree of periodontal disease progress together with an application form and the like. Note that the subject may send the answers to the questionnaire via the Internet or the like instead of sending the questionnaire sheet 14.

(Numeric digitizer)
FIG. 8 schematically shows the digitization device 20 installed on the service provider side. The number of periodontopathic bacteria and the answer to the questionnaire are input to the digitizer 20. Here, the periodontopathic bacteria are the above-mentioned T. d. Bacteria and T. f. Bacteria or P. g. Bacteria and T. f. It is preferably a fungus. In addition, it is preferable that the answer to the questionnaire is the answer to the above-mentioned questionnaire regarding subjective symptoms or lifestyle.

FIG. 9 shows a functional configuration of the digitizing device 20. The digitizing device 20 includes a control unit 21, a memory 22, a personal information database (hereinafter, “database” is referred to as “DB”) 23, an analysis result DB 24, a program DB 25, a display unit 26, and a printing unit. And a section 27.

The control unit 21 includes a CPU and the like, and controls the entire digitization device 20 by executing various programs stored in the program DB 25. The memory 22 is composed of a RAM or the like, and functions as a working memory in the processing by the control unit 21.

The personal information DB 23 stores personal information regarding the subject, specifically, attribute information such as the name, address, and age of the subject. The analysis result DB 24 stores the number of periodontopathic bacteria detected from saliva for each subject. The program DB 25 stores various programs including a program for quantifying the degree of periodontal disease progression.

(Work of service provider)
Next, the work performed by the service provider who receives the reply envelope 15 from the subject will be described. First, the service provider extracts the personal information of the subject from the application form or questionnaire 14 and registers it in the personal information DB 23 in association with the management ID read from the barcode 14a.

Further, the service provider associates the questionnaire response entered in the questionnaire sheet 14 with the management ID read from the barcode 14a attached to the questionnaire sheet 14 and registers it in the personal information DB 23. If the questionnaire sheet 14 is a mark sheet type or the like, the questionnaire answer can be automatically read from the questionnaire sheet 14.

Furthermore, the service provider extracts DNA from the saliva in the saliva collecting tube 12 submitted by the subject, and measures the periodontal pathogenic bacteria count (hereinafter, also simply referred to as “bacteria count”) by the real-time PCR method. To do. Then, the measured number of bacteria is stored in the analysis result DB 24 in association with the management ID read from the barcode 12a attached to the saliva collection tube 12.

(Numerical processing)
Next, the digitizing process of the periodontal disease degree performed by the digitizing device 20 will be described. FIG. 10 is a flowchart of the digitization process. This process is performed by the control unit 21 of the digitization device 20 executing a determination program prepared in advance.

First, the control unit 21 acquires the personal information of the subject to be examined from the personal information DB 23 (step S1). Next, the control unit 21 acquires the number of periodontopathic bacteria detected from the saliva of the subject from the analysis result DB 24 (step S2). Next, the control unit 21 acquires, from the personal information DB 23, the questionnaire answers to the questionnaire items used to calculate the degree of periodontal disease among the questionnaire answers of the subject (step S3).

Next, the control unit 21 calculates the degree of periodontal disease progression according to the above-described determination formula based on the number of specific periodontopathic bacteria and the information regarding subjective symptoms/lifestyle (step S4). Then, the control unit 21 creates an inspection result report indicating the calculated degree of periodontal disease progression, and outputs it to a paper medium by the printing unit 27 (step S5). In this way, the digitization process ends.

The created test result report is provided to the subject by mail or the like. The examination result report may include information such as oral care advice according to the degree of periodontal disease, in addition to the calculated degree of periodontal disease.

An example of the inspection result report is shown in FIG. FIG. 11A is an example showing advancing information in addition to the degree of periodontal disease progression. FIG. 11B is an example in which, in addition to the periodontal disease progression degree, an average value of the periodontal disease progression rate of the same generation is shown as reference information. FIG. 11C is an example showing the number of specific periodontopathic bacteria detected in the saliva of a subject in addition to the degree of periodontal disease progression.

In the above example, the inspection result report is output as a paper medium by the printing unit 27, but instead, the inspection result report may be created as electronic data and provided to the subject through the Internet or the like. Good.

10 Inspection Kit 12 Saliva Collection Tube 14 Questionnaire Form 20 Digitizer 21 Control Unit 23 Personal Information DB
24 Analysis result DB
25 program DB
26 display section 27 printing section

Claims (9)

An acquisition means for acquiring the number of periodontopathic bacteria in the saliva of the subject;
Generating means for quantifying answers to questionnaire items about subjective symptoms related to periodontal disease and generating numerical values indicating the answers,
Numeralizing means for quantifying the degree of periodontal disease progression by summing the results obtained by multiplying the numbers of bacteria and the answer by different constants,
Equipped with
The periodontal pathogen is T. d. Fungus and T. f. Is a bacterium,
The questionnaire items regarding the subjective symptoms include questionnaire items regarding the presence or absence of bleeding during brushing, and questionnaire items regarding the presence or absence of sensation of tooth shaking,
The digitizing means is a T.I. d. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of feeling of tooth shaking, and a numerical value indicating the periodontal disease progression degree by summing the results obtained by multiplying different constants. A device for digitizing the degree of progression of periodontal disease, which is characterized by The generating means further digitizes the answers to the questionnaire items related to lifestyle, and generates a numerical value indicating the answer,
The questionnaire items related to the lifestyle include a questionnaire item related to tooth brushing time and a questionnaire item related to smoking.
The digitizing means further digitizes the degree of periodontal disease progression by summing the results obtained by multiplying the values relating to the time of brushing teeth and the values relating to the presence or absence of smoking by different constants. The apparatus for digitizing the degree of progression of periodontal disease according to claim 1. An acquisition means for acquiring the number of periodontopathic bacteria in the saliva of the subject;
A generation means that digitizes the answers to the questionnaire items related to lifestyle and generates a numerical value indicating the answer,
Numeralizing means for quantifying the degree of periodontal disease progression by summing the results obtained by multiplying the numbers of bacteria and the answer by different constants,
Equipped with
The periodontal pathogen is T. d. Fungus and T. f. Is a bacterium,
The questionnaire items about the lifestyle include a questionnaire item about the time of brushing teeth, and a questionnaire item about the presence or absence of smoking,
The digitizing means is a T.I. d. Number of bacteria, T. f. Tooth characterized by quantifying the periodontal disease progression by summing the results of multiplying the bacterial count of bacteria, the value related to tooth brushing time, and the value related to the presence or absence of smoking by different constants. A device to quantify the degree of disease progression. A computerized program for quantifying periodontal disease progression,
Acquisition means for acquiring the number of periodontopathic bacteria in saliva of a subject,
Generating means for quantifying answers to questionnaire items about subjective symptoms related to periodontal disease and generating numerical values indicating the answers,
Numeralizing means for quantifying the degree of periodontal disease by summing the results of multiplying the bacterial count and the numerical value indicating the answer by different constants,
It makes the computer function as,
The periodontal pathogen is T. d. Fungus and T. f. Is a bacterium,
The questionnaire items regarding the subjective symptoms include questionnaire items regarding the presence or absence of bleeding during brushing, and questionnaire items regarding the presence or absence of sensation of tooth shaking,
The digitizing means is a T.I. d. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of feeling of tooth shaking, and a numerical value indicating the periodontal disease progression degree by summing the results obtained by multiplying different constants. A program for digitizing the degree of progression of periodontal disease, which is characterized by A computerized program for quantifying periodontal disease progression,
Acquisition means for acquiring the number of periodontopathic bacteria in saliva of a subject,
A generation means that digitizes the answers to the questionnaire items related to lifestyle and generates the numerical values indicating the answers,
Numeralizing means for quantifying the degree of periodontal disease by summing the results of multiplying the bacterial count and the numerical value indicating the answer by different constants,
It makes the computer function as,
The periodontal pathogen is T. d. Fungus and T. f. Is a bacterium,
The questionnaire items regarding the lifestyle include a questionnaire item regarding the time for brushing teeth, and a questionnaire item regarding the presence or absence of smoking,
The digitizing means is a T.I. d. Number of bacteria, T. f. Tooth characterized by quantifying the periodontal disease progression by summing the results of multiplying the bacterial count of bacteria, the value related to tooth brushing time, and the value related to the presence or absence of smoking by different constants. A program for digitizing the degree of progression of perinatal disease. An acquisition means for acquiring the number of periodontopathic bacteria in the saliva of the subject;
Generating means for quantifying answers to questionnaire items about subjective symptoms related to periodontal disease and generating numerical values indicating the answers,
Numeralizing means for quantifying the degree of periodontal disease progression by summing the results obtained by multiplying the numbers of bacteria and the answer by different constants,
Equipped with
The periodontopathic bacterium is P. g. Fungus and T. f. Is a bacterium,
The questionnaire items about the subjective symptoms include a questionnaire item regarding the presence or absence of bleeding during brushing, and a questionnaire item regarding the presence or absence of a feeling of tooth shaking,
The digitizing means is a P.I. g. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of feeling of tooth shaking, and a numerical value indicating the periodontal disease progression degree by summing the results obtained by multiplying different constants. A device for digitizing the degree of progression of periodontal disease, which is characterized by An acquisition means for acquiring the number of periodontopathic bacteria in the saliva of the subject;
A generation means that digitizes the answers to the questionnaire items related to lifestyle and generates a numerical value indicating the answer,
Numeralizing means for quantifying the degree of periodontal disease progression by summing the results obtained by multiplying the numbers of bacteria and the answer by different constants,
Equipped with
The periodontopathic bacterium is P. g. Fungus and T. f. Is a bacterium,
The questionnaire items about the lifestyle include a questionnaire item about the time of brushing teeth, and a questionnaire item about the presence or absence of smoking,
The digitizing means is a P.I. g. Number of bacteria, T. f. Tooth characterized by quantifying the periodontal disease progression by summing the results of multiplying the bacterial count of bacteria, the value related to tooth brushing time, and the value related to the presence or absence of smoking by different constants. A device to quantify the degree of disease progression. A computerized program for quantifying periodontal disease progression,
Acquisition means for acquiring the number of periodontopathic bacteria in saliva of a subject,
Generating means for quantifying answers to questionnaire items about subjective symptoms related to periodontal disease and generating numerical values indicating the answers,
Numeralizing means for quantifying the degree of periodontal disease progression by summing the results of multiplying the numbers of bacteria and the answer by different constants,
Functioning the computer as
The periodontopathic bacterium is P. g. Fungus and T. f. Is a bacterium,
The questionnaire items regarding the subjective symptoms include questionnaire items regarding the presence or absence of bleeding during brushing, and questionnaire items regarding the presence or absence of sensation of tooth shaking,
The digitizing means is a P.I. g. Number of bacteria, T. f. The number of bacteria, a value indicating the degree of bleeding at the time of brushing, and a value indicating the degree of feeling of tooth shaking, and a numerical value indicating the periodontal disease progression degree by summing the results obtained by multiplying different constants. A program for digitizing the degree of progression of periodontal disease, which is characterized by A computerized program for quantifying periodontal disease progression,
Acquisition means for acquiring the number of periodontopathic bacteria in saliva of a subject,
A generation means that digitizes the answers to the questionnaire items related to lifestyle and generates the numerical values indicating the answers,
Numeralizing means for quantifying the degree of periodontal disease by summing the results of multiplying the bacterial count and the numerical value indicating the answer by different constants,
Functioning the computer as
The periodontopathic bacterium is P. g. Fungus and T. f. Is a bacterium,
The questionnaire items about the lifestyle include a questionnaire item about the time of brushing teeth, and a questionnaire item about the presence or absence of smoking,
The digitizing means is a P.I. g. Number of bacteria, T. f. Tooth characterized by quantifying the periodontal disease progression by summing the results of multiplying the bacterial count of bacteria, the value related to tooth brushing time, and the value related to the presence or absence of smoking by different constants. A program for digitizing the degree of progression of perinatal disease.