JP2021099608A - System and method of presenting risk of dementia - Google Patents

Abstract

To provide a dementia risk presentation system of presenting a user's risk of the dementia.SOLUTION: A presentation system 10 includes: a first database 17 in which sample brain health data 17a is associated with individual characteristics 17b, where the sample brain health data include at least any of sample brain state data 17d, the data relating to a state of the brain of a sample object person, and sample cognitive ability data 17e, the data relating to cognitive ability that is a function of the brain, and where the individual characteristics include at least one of an age, a gender, and physical information of the sample object person; a first recognition section 11 for recognizing user brain health data 18a including at least any of user brain state data 41 and user cognition ability data 61; a second recognition section 12 for recognizing user individual characteristics 43; and a risk presenting section 30 for presenting a chronological transition line 52 representing transition in the user brain health data from the past to the present of the user, and a risk line 54 relating to the dementia.SELECTED DRAWING: Figure 1

Description

The present invention relates to a system and method for presenting a user's risk of dementia.

Patent Document 1 describes providing a dementia risk determination system capable of determining the potential risk of dementia at an extremely early stage and providing a preventive opportunity to delay the onset of dementia. This system uses a biometric data detection sensor that acquires the biometric data of the subject during sleep and the biometric data of the subject acquired by the biometric data detection sensor, and the depth of sleep of the subject over time. It is equipped with a sleep data generator that generates sleep data including changes in body movements, and a storage unit that stores sleep data specific to each symptom obtained from an actual onset patient for a predetermined dementia-related symptom. Cognition that determines the risk of three dementia from the sleep data of the subject by comparing the sleep data of the subject generated by the data generator with the sleep data of each symptom stored in the storage unit. It is equipped with a disease risk determination device.

Japanese Unexamined Patent Publication No. 2016-22310

Conventionally, with regard to dementia, lifestyle habits such as the amount of exercise and drinking are appropriate or appropriate at the initial stage of onset (including not only the state of actual onset but also the state of suspected onset). It is known that the progression can be suppressed by giving treatment. Therefore, there is a desire to grasp the possibility of developing dementia or the degree of progression after the onset at an early stage. Along with this, various systems for grasping the risk of onset and progression of dementia (hereinafter, simply referred to as "dementia risk") have been proposed.

In the system for determining the risk of dementia from the above hypnosis data, the function of the user's brain is estimated based on the state during sleep, and the risk of dementia is recognized based on the estimation result. Therefore, the accuracy of the dementia risk is also affected by the accuracy of the estimation, and there is a problem that it is difficult to appropriately recognize the dementia risk. There is a problem that it is difficult for a person who does not have sufficient knowledge to properly understand the content of the dementia risk by simply presenting the presence or absence of the dementia risk. Therefore, there is a need for a system and method that can accurately recognize the risk of dementia and can present it in an easy-to-understand form.

One aspect of the present invention is sample brain health data including at least one of sample brain state data which is data related to the brain state of a sample subject and sample cognitive data which is data related to cognitive ability which is a function of the brain. Is a first database associated with individual characteristics including at least one of the age, gender and physical information of the sample subject, and user brain condition data and brain function which are data related to the user's brain condition. A first recognition unit that recognizes user brain health data including at least one of user cognitive ability data, which is data related to cognitive ability, and a second recognition unit that recognizes user individual characteristics, which are individual characteristics of the user. Based on past and present user brain health data, based on a secular transition line showing the transition of user brain health data from the user's past to the present, and sample brain health data associated with individual characteristics corresponding to user individual characteristics. , A system having a risk presentation unit that presents a risk line for dementia determined by referring to the age-related transition of the sample brain health data.

In this system, user brain health data including at least one of data related to the brain state of the user to be risk-determined (user brain state data) and user cognitive ability data which is data related to cognitive ability which is a function of the brain. (Brain health data) is compared with data related to similar brain health of sample subjects (sample brain health data) to recognize the risk of dementia. The data related to the brain state is direct data of quantitative parameters based on the state of the brain that affects cognitive ability, and is not indirect data of brain function inferred from the user's brain waves, movements, etc. , Data related to brain condition, which is direct data. The cognitive ability test, which acquires cognitive ability data, has been enhanced as a criterion for judging the risk of dementia, and can accurately judge the state of brain function. An example of a cognitive test is described in Japanese Patent Application No. 2018-33652 filed by the Applicant. Therefore, the risk of dementia can be accurately recognized by comparing the user brain health data including either or both of these with the sample brain health data.

Furthermore, by presenting the dementia risk in a format that compares the age-appropriate aging line and the risk line, the user, etc. can determine not only the magnitude of the user's dementia risk but also the user's dementia risk. The tendency (whether it is getting worse, improving, suppressing the deterioration, etc.) can be grasped at the same time. Therefore, if the user or a person who manages the health of the user (hereinafter, collectively referred to as "user, etc.") does not have sufficient knowledge based on the information presented by this system. Even so, it is possible to intuitively grasp the magnitude of the risk of dementia.

Based on the result of comparison between the user brain health data and the sample brain health data associated with the individual characteristics corresponding to the user individual characteristics, the risk presentation unit indicates the user's dementia risk, or according to the score. It may include a first score presenting part that presents the symbol. By presenting the dementia risk as a score or a symbol corresponding to the score (hereinafter, referred to as “score, etc.”), the user or the like can more intuitively grasp the magnitude of the dementia risk of the user.

This system has a prediction unit that predicts the aging prediction line that shows the transition of the user's brain health data predicted from the present to the future based on the aging transition line, and the risk presentation unit has the aging transition line and the risk. In addition to the line, a prediction presentation unit that presents the aging prediction line may be included. By presenting the aging prediction line, which is a prediction of the transition of dementia risk from the present to the future, in comparison with the risk line, the user and the like can more accurately grasp the tendency of the user's dementia risk.

The risk presentation unit compares the user brain health data of the first age on the aging prediction line with the sample brain health data associated with the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics. Based on the results of, a second score presenting section may be included that presents a score indicating the user's future risk of dementia, or a symbol corresponding to the score, together with or instead of the aging prediction line. The risk presentation unit predicts or predicts the user brain health data of the user's future first age separately from the aging prediction line, and sets the predicted user brain health data and the user individual characteristics to the first age. Based on the result of comparison with the sample brain health data associated with the individual characteristics corresponding to the added individual characteristics, a score indicating the user's future risk of dementia or a symbol corresponding to the score may be presented. ..

In the first database, sample brain health data may be associated with individual characteristics as well as living characteristics including at least one of the lifestyle and living environment of the sample subject. In addition, this system further has a third recognition unit that recognizes the user life characteristic, which is the user's life characteristic, and the prediction unit includes the individual characteristic corresponding to the user individual characteristic, the life characteristic corresponding to the user life characteristic, and the life characteristic. The aging prediction line may be predicted based on the sample brain health data associated with age and the aging line. When recognizing the aging prediction line, the highly reliable aging prediction line (and thus the tendency of dementia risk) can be recognized by referring to the user life characteristics. As a result, the user and the like can more accurately grasp the tendency of the user's risk of dementia.

The risk presentation unit is used for the user brain health data of the first age on the aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the living characteristics corresponding to the user life characteristics. A third score that presents a score indicating the user's future risk of dementia, or a symbol corresponding to the score, along with or instead of the aging prediction line, based on the results of comparison with the associated sample brain health data. It may include a presentation part. The risk presentation unit predicts the user brain health data corresponding to the user life characteristics specified by the user or arbitrarily selected separately from the aging prediction line, and the predicted user brain health data and the user life Based on the results of comparison with sample brain health data associated with life traits corresponding to the trait, a score indicating the user's future risk of dementia, or a symbol corresponding to the score may be presented.

The prediction unit includes a comparative prediction unit that recognizes a first aging prediction line based on the first user life characteristic and a second aging prediction line based on the second user life characteristic for the same user. The risk presentation unit may include a comparison presentation unit that presents the first aging prediction line and the second aging prediction line side by side in a comparable manner or continuously. Users and the like can intuitively grasp changes in the aging prediction line (and thus dementia risk) according to changes in living characteristics. As a result, the user or the like can grasp the living characteristics to be improved concretely, and can be given an incentive for the improvement of the living characteristics.

The risk presentation unit has a first score indicating the future dementia risk of the user corresponding to the first aging prediction line and a second score indicating the future dementia risk of the user corresponding to the second aging prediction line. It may include a fourth score presenting section that presents the score. Each score corresponds to the user brain health data of the first age on each aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and each user life characteristic. Calculated based on the results of comparison with sample brain health data associated with living characteristics. The risk presentation unit predicts the future risk of dementia of the user based on each user's life characteristics separately from the aging prediction line, and even if the first score and the second score indicating those risks are presented. Good.

The sample brain state data and the user brain state data may include data indicating the total capacity of the brain or the capacity of at least one predetermined region of the brain, may include brain images, cerebral blood flow, brain waves, and the like. It may include information directly or indirectly indicating the state of the brain, for example, information such as a blood biomarker.

One of the other aspects of the invention is a method of presenting the risk of dementia. In this method, the sample brain health data including at least one of the sample brain state data which is the data related to the brain state of the sample subject and the sample cognitive ability data which is the data related to the cognitive ability which is the function of the brain is described above. Using a system that can reference a first database associated with individual characteristics including at least one of the sample subjects' age, gender and physical information, the following steps are included.
1. 1. Recognizing user brain health data including at least one of user brain state data, which is data related to the user's brain state, and user cognitive ability data, which is data related to cognitive ability, which is a function of the brain.
2. Recognize the user's individual characteristics, which are the user's individual characteristics.
3. 3. Based on past and present user brain health data, based on a secular transition line showing the transition of user brain health data from the user's past to the present, and sample brain health data associated with individual characteristics corresponding to user individual characteristics. , Present the risk by the risk line for dementia determined by referring to the age-related transition of the sample brain health data.

This method is further based on the result of comparison between the user brain health data and the sample brain health data associated with the individual characteristics corresponding to the user individual characteristics, and the score indicating the user's risk of dementia, or the score. You may have to present the corresponding symbols.

This method further has to predict the aging prediction line which shows the transition of the user's brain health data predicted from the present to the future of the user based on the aging transition line, and presenting the risk is the aging transition. In addition to the line and risk line, it may include presenting a aging forecast line. In addition, this method uses the user brain health data of the first age on the aging prediction line and the sample brain health data associated with the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics. Based on the results of the comparison, it may have a score indicating the user's future risk of dementia, or a symbol corresponding to the score, along with or in place of the aging prediction line.

In the first database, sample brain health data may be associated with individual characteristics as well as living characteristics including at least one of the lifestyle and living environment of the sample subject. In addition, this method further includes recognizing and predicting the user's life characteristics, which are the user's life characteristics, and predicting the individual characteristics corresponding to the user's individual characteristics, the life characteristics corresponding to the user's life characteristics, and the age. It may include predicting the aging line based on the associated sample brain health data and the aging line.

In addition, this method further corresponds to the user brain health data of the first age on the aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the user life characteristics. Based on the results of comparison with sample brain health data associated with life characteristics, a score indicating the user's future risk of dementia, or a symbol corresponding to the score, should be presented together with or instead of the aging prediction line. May have. This method predicts the user's brain health data of the first age specified by the user or arbitrarily selected separately from the aging prediction line, and the user's brain health data and the user's individual characteristics are the first. A score indicating the user's future risk of dementia, or a score based on the results of comparison with sample brain health data associated with individual traits corresponding to age-added individual traits and living traits corresponding to user life traits, or , You may present the symbol according to the score.

Predicting includes predicting a first aging prediction line based on a first user life characteristic and a second aging prediction line based on a second user life characteristic for the same user. Presenting the risk may include presenting the first aging forecast line and the second aging forecast line in a comparable manner, side by side, or in succession. The method may have to present a score for the first age on the first aging prediction line and a score for the first age on the second aging prediction line. The method may present multiple scores for the risk of dementia specified by the user or predicted based on any user life characteristic.

One of the other correspondences of the present invention is a program (program product) having an instruction for operating a computer as the above system. The program (program product) may be recorded and provided on any recording medium.

The figure which shows the schematic structure of the presentation system of dementia risk. The figure which shows an example of the report provided by the presentation system. It is a graph plotting brain condition data to be referred to when presenting the risk of dementia as a secular transition, and the vertical axis shows the hippocampal volume and the horizontal axis shows the age. It is a graph in which brain state data is plotted in the same manner as in FIG. 3, and the range of 95% CI is also shown. An example of an output that includes an aging forecast line with an estimated width. This is an example showing changes in the display contents of the report when the living characteristics are changed. FIG. 6 (a) shows a case where drinking is daily, and FIG. 6 (b) shows a case where drinking is 2-3 days a week. Another example showing changes in the display contents of the report when the living characteristics are changed, FIG. 7 (a) shows a case where drinking is daily, and FIG. 7 (b) shows a case where drinking is 2-3 days a week. .. Diagram showing another example of a report provided by the presentation system. The figure which shows the example of the test or the test which measures the health condition of a brain. Following FIG. 9, a diagram showing an example of a test or test for measuring brain health. A flowchart showing an outline of the operation of the presentation system.

FIG. 1 shows an example of a system including a device (system) that presents the risk of dementia. This system 1 is an information terminal (personal computer, tablet) that inputs various information about a user and outputs (displays) a report 50 about a dementia risk with a hospital 3 including an MRI (Magnetic Resonance Imaging) device (MRI) 3a. Information providing device (dementia risk presenting device, dementia risk presenting device) that processes information received from MRI3a and tablet 2 via the terminal) 2 and the Internet 9 and transmits a report 50 including dementia risk and other information. System, presentation system) 10 and so on. In this example, the presentation system 10 includes computer resources such as a memory and a CPU, and is mounted on a server 7 capable of inputting and outputting information via the Internet (cloud) 9. However, the presentation system 10 is a user's information. It may be integrated with the terminal 2, may be connected by wire or wirelessly, may be installed inside the hospital 3, and some or all of the functions of the presentation system 10 may be connected to the user terminal 2. It may be distributed and implemented in a plurality of information processing devices including the device.

The MRI 3a acquires data related to the user's brain state (user's brain state data), and transmits the user's brain state data 41 to the presentation system 10. The device for acquiring the user brain state data 41 is not limited to MRI3a, and may be any device having a configuration capable of recognizing the user brain state data of the user who is the target of determining the risk of dementia. For example, it may be a CT (Computed Tomography) inspection device, an ultrasonic inspection device, or the like, a device for measuring brain function (cerebral blood flow) such as FDG or SPECT, a device for measuring brain waves, blood biomarkers, or the like. , The information measurable by these may be included in the data relating to the brain state. Further, when a predetermined amount of protein in the brain is used as the data related to the brain state instead of the shape and volume of the brain, a PET (Positron Emission Tomography) image acquisition device or the like may be used. The presentation system 10 may use the brain state data 41 obtained from the MRI 3a, or may use the brain state data 41 obtained in advance and stored in the user library 18.

Hereinafter, an example in which the value of the hippocampal volume (hippocampal volume) is used as the brain state data 41 will be described, but the brain state data 41 is not limited to this. Here, the "brain state" refers to the overall state of the brain or the region of the brain that affects cognitive ability (for example, the hippocampus, supramarginal gyrus, angular gyrus, superior frontal gyrus, middle frontal gyrus, and inferior frontal gyrus). It refers to the state of the anterior gyrus, etc.). The "state" includes the volume and shape of the entire brain or a predetermined region of the brain, as well as the amount of a predetermined protein (for example, amyloid β, etc.) in the brain. The brain state data (data relating to the brain state, data relating to the brain state) 41 includes quantitative parameters based on the brain state, and includes, for example, the above-mentioned brain state itself (that is, the entire brain or a predetermined region). Shape), or a numerical value of the capacity or size of the brain. The brain state data 41 may be related to a single brain state or may be related to a plurality of brain states. Specifically, for example, the brain state data 41 may include the amount of hippocampus, or may include a value obtained by a predetermined calculation formula based on the amount of hippocampus and the amount of amyloid β in the brain.

The tablet 2 that inputs information about the user to the presentation system 10 and receives a report 50 including information on the user's dementia risk from the presentation system 10 includes a touch panel 2a (input / output unit). The user's individual characteristic 43 is input to the individual characteristic inquiry 42 from the presentation system 10 and the user's life characteristic 45 is input to the living characteristic inquiry 44 via the touch panel 2a, and is changed. .. Further, the question 60 of the cognitive ability test is presented on the touch panel 2a, and the cognitive ability data 61 including the answer to the cognitive ability test is input to the presentation system 10. Further, the touch panel 2a displays a report 50 including the presentation of the risk of dementia.

The user terminal used for input / output of these information is not limited to the tablet 2 having the touch panel 2a. The user terminal may have a configuration capable of recognizing the individual characteristics of the user who is the target of determining the dementia risk and presenting the dementia risk. For example, a personal computer, a smartphone, or the like may be used instead of the tablet. Further, instead of the touch panel which is an input / output unit in which the output unit and the input unit are integrated, an independent output unit and an input unit may be adopted. Specifically, a keyboard, a microphone, or the like may be adopted as an input unit, or a display, a speaker, a printing device, or the like may be adopted as an output unit.

Further, the input unit and the output unit of the user terminal do not necessarily have to be provided in the same device, and may not be arranged at positions close to each other such as in a room. For example, a display, a speaker, a printing device, or the like as an output unit of a user terminal may be arranged in a medical workstation provided in a place different from the place where the MRI apparatus or the like is installed.

The server 7 operating as the presentation system 10 has various functions (functional unit, functional unit) by loading the memory (data storage unit, data storage area) 16 and the program (program product) 19 stored in the memory 16. ) Includes a processor (CPU) 8 that operates as a). The memory 16 includes sample brain state data 17d, which is data related to the brain state of the sample subject, and sample brain health data 17e, which is data related to cognitive ability, which is a function of the brain. A database (first database) 17 including 17a and a user library 18 in which user brain health data (user brain health data) 18a are stored are included.

The database 17 further includes an individual characteristic 17b containing at least one of the age, gender and physical information of the sample subject, and the sample brain health data 17a is stored in association with the individual characteristic 17b. The database 17 further includes a living characteristic 17c including at least one of the lifestyle and living environment of the sample subject, and the sample brain health data 17a is stored in association with the living characteristic 17c.

Here, the "sample subject" includes not only those who have dementia (including mild dementia) and those who are suspected of developing dementia, but also healthy persons who do not develop dementia. Is done. The individual characteristic 17b includes at least one of age, gender and physical information. Further, the "physical information" included in the individual characteristic 17b refers to physical information that can be quantitatively shown. Specifically, for example, height, weight, body fat percentage, BMI, cholesterol level and the like can be mentioned.

The living characteristic 17c includes at least one of a lifestyle and a living environment. “Lifestyle” refers to a habit that affects the increase or decrease in the risk of dementia in daily life. Specifically, for example, the amount of exercise, the amount and type of meal, the length and quality of sleep time, the amount and frequency of communication, the amount and frequency of hobby activities, the amount and frequency of drinking, the amount and frequency of smoking, and the like can be mentioned. “Living environment” refers to an environment that affects the increase or decrease in the risk of dementia in daily life. Specifically, for example, the address (living environment), occupation, educational background, annual income, number of cohabitants, and the like can be mentioned.

In the database 17, sample brain health data 17a including data related to the brain condition of the sample subject (sample brain condition data) 17d and data related to the result of the cognitive ability test of the sample subject (sample cognitive ability data) 17e is provided. , It is stored in the format associated with the individual characteristics 17b and the living characteristics 17c of the sample subject. In the user library 18, the latest (current) user brain health data 18a including data related to the user's brain state (user brain state data) 41 and data related to the user's cognitive ability (user cognitive ability data) 61 is updated. In addition, what was acquired in the past is stored. The individual characteristic (user individual characteristic) 43 and the living characteristic (user living characteristic) 45 of each user may be stored in the user library 18. The presentation system 10 compares the data (user brain health data) 18a related to the brain health state of the user to be risk-determined with the data (sample brain state data) 17a related to the brain state of the sample subject. , Recognize the risk of dementia.

Here, the data 17a and 41 relating to the brain state are direct data of quantitative parameters based on the state of the brain that affect cognitive ability. That is, this dementia risk presentation system 10 uses direct data such as data related to the brain state, instead of indirect data such as brain function inferred from the user's brain waves, movements, etc. as in the conventional system. ing. As a result, the presentation system 10 is not affected by the estimation accuracy regarding the function of the brain in recognizing the risk of dementia. As a result, according to this presentation system 10, the risk of dementia can be recognized more accurately than the conventional system.

The presentation system 10 provides user brain health data 18a including at least one of user brain state data 41 which is data related to the user's brain state and user cognitive ability data 61 which is data related to cognitive ability which is a function of the brain. The first recognition unit 11 having the first recognition unit 11 to acquire (recognize) acquires the input unit (input function, input unit) 14 for acquiring the user brain state data 41 and the user cognitive ability data 61. Includes an input unit (input function, input unit) 15. The cognitive ability data input unit 15 sends a cognitive ability test 60 to the user's terminal 2, and recognizes the user cognitive ability data 61 from the answers. The cognitive data input unit 15 is not limited to direct information input from the terminal 2, but indirectly inputs information about the user by inputting via a paper medium or providing information through a doctor or other specialist. It may be acquired as a target. The same applies to the recognition (acquisition, input) of other information.

An example of the cognitive test 60 is to evaluate the function of each of the five cognitive domains. The cognitive domain includes short-term memory, work memory, executive function, spatial cognition, and calculation. Short-term memory shows the ability to retain and remember what you have learned for a short period of time, and is said to involve the hippocampus of the brain. Working memory is the ability to manipulate the retained memory in different ways, such as "remember a phone number and press the button for that number to make a call", and it is said that the prefrontal cortex and temporal crown of the brain are involved. ing. Executive function is the ability to maintain and update rules such as cooking "procedures" and "change ingredients according to the situation" and control behaviors and thoughts, and it is said that the prefrontal cortex of the brain is particularly involved. It has been. Spatial cognition is the ability to instantly grasp and understand which direction a figure or object is facing in space, and is said to involve the parietal lobe of the brain. Calculation is the ability to perform four arithmetic operations and involves various regions of the brain, but it is said that it involves the temporal and parietal regions of the brain.

The cognitive ability data input unit 15 performs the cognitive ability test 60 and acquires the evaluation for each cognitive ability domain as the user cognitive ability data 61. The cognitive ability data 61 can be used as an index for accurately determining the function of the brain by performing statistical processing as described later on the evaluation for each cognitive ability domain.

The presentation system 10 further includes a second recognition unit (individual characteristic input unit, second input unit) 12 that recognizes (acquires) the user individual characteristic 43, which is the individual characteristic of the user, and the user, which is the life characteristic of the user. It includes a third recognition unit (living characteristic input unit, third input unit) 13 that recognizes (acquires) the living characteristic 45. The individual characteristic input unit 12 may send a questionnaire (questionnaire) 42 related to individual characteristics to the user terminal 2 and recognize the individual characteristics 43 of each user from the answers to the questionnaires (questionnaire) 42. When an electronic medical record or the like related to the user is created in advance, the individual characteristic input unit 12 may recognize the user individual characteristic 43 based on the description of the electronic medical record or the like.

The living characteristic input unit 13 may send a questionnaire (questionnaire) 44 related to living characteristics to the user terminal 2 and recognize the living characteristics 45 of each user from the answers to the questionnaires (questionnaire) 44. When an electronic medical record or the like related to the user is created in advance, the life characteristic input unit 13 may recognize the user life characteristic 45 based on the description of the electronic medical record or the like.

The presentation system 10 further includes a recognition / prediction unit (prediction unit, prediction function, prediction unit) 20 that recognizes each user's current risk for dementia and predicts future risk, and information including the risk of dementia. Is included in the risk presentation unit (risk presentation function, risk presentation unit) 30 that presents the user. The recognition / prediction unit 20 includes a current risk recognition unit 21 that recognizes the current risk, a prediction unit 22 that predicts future risks, and a score calculation unit 23 that converts the risk into a score.

Based on the past and present user brain health data 18a, the current risk recognition unit 21 has an aging line showing the transition of the user brain health data 18a from the past to the present of the user, and an individual characteristic 17b corresponding to the user individual characteristic 43. Based on the sample brain health data 17a associated with, the risk line regarding dementia determined by referring to the transition of the sample brain health data 17a according to the age is recognized, and the user terminal via the risk presentation unit 30. Output to 2.

The current risk recognition unit 21 acquires sample brain state data 17d and sample cognitive data 17e associated with the individual characteristic 17b corresponding to the user individual characteristic 43 from the database 17. After that, the sample brain state data 17d and the user brain state data 41 are compared, and the sample cognitive ability data 17e and the user cognitive ability data 61 are compared. Then, based on the result of these comparisons, the user's risk of dementia may be recognized. As described above, the sample brain state data 17d and the user brain state data 41 are not limited to the hippocampus and may be the total capacity of the hippocampus or the capacity of at least one predetermined region of the brain.

The prediction unit 22 predicts an aging prediction line showing the transition of the user's brain health data predicted from the present to the future based on the aging transition line, and the aging transition line and the risk line via the risk presentation unit 30. In addition, it will be possible to present an aging forecast line. The score calculation unit 23 is based on the result of comparison between the current or future predicted user brain health data 18a and the sample brain health data 17a associated with the individual characteristic 17b corresponding to the user individual characteristic 43. A score indicating the risk of dementia or a symbol corresponding to the score is obtained and can be presented via the risk presentation unit 30.

The risk presentation unit 30 includes a chart display unit 31 that displays a chart or graphic of an aging transition line, an aging prediction line, a risk line, and the like, and a score presentation unit 32 that displays a obtained score. The chart display unit 31 includes a prediction presentation unit 31a that displays a prediction including an aging prediction line, and a comparison presentation unit 31b that displays the results of simulating a plurality of cases in which living characteristics are changed. The score presentation unit 32 includes a first score presentation unit 32a that displays the current risk score (including the corresponding symbol, etc.), a second score presentation unit 32b that displays the predicted risk score, etc. A third score presenting unit 32c that displays the predicted risk score including living characteristics, and a fourth score presenting unit 32d that displays the risk score that simulates a case in which the living characteristics are changed. Including.

FIG. 2 shows an example of the report 50 provided to the user by the presentation system 10. This report 50 may be a screen or digital data presented to the user terminal 2 when the dementia risk is determined, may be an audio file, and may be passed through the user terminal 2 and then through the user terminal 2. It may be a printed matter, a booklet, etc. provided to the user by mail or the like. The report 50 includes a brain image display area 59, an aging transition display area 51, a score display area 57, and a life characteristic display area 58, and information on dementia risk or user life characteristics is presented in each area.

Specifically, in the brain image display area 59, an image of the user's brain included in the user brain state data 41 acquired by MRI3a is displayed. In the aging transition display area 51, a graph (chart) is displayed via the presentation unit 30 as the dementia risk recognized by the risk recognition / prediction unit 20. This graph shows the result of comparison between the sample brain state data and the user brain state data. This graph includes an aging line 52, an aging forecast line 53, and a risk line 54.

In the score display area 57, as the dementia risk recognized by the risk recognition / prediction unit 20, rank 55 related to the comprehensive risk judgment indicated by the alphabets A to D and F, and the brain age 56a indicated by a numerical value. , The arrow 56b, which is a symbol related to long-term forecasting, is displayed. Further, in the score display area 57, the legend 56c relating to the rank 55 is displayed. The value of rank 55, the value of brain age 56a, and the inclination of the arrow 56b are the results of comparison between the sample brain state data 17d and the user brain state data 41, and the sample cognitive ability data 17e and the user cognitive ability data 61. It is determined according to the score obtained based on the result of the comparison. Rank A indicates that the brain function is high, rank B indicates that the brain function is standard, rank C indicates that the brain function is deteriorated, and rank D indicates that the brain function is deteriorated. It shows what to do. Rank F indicates that treatment has already begun due to decreased brain function.

The user life characteristic 45 is displayed in the life characteristic display area 58. The changed result is reflected in the user life characteristic 45 via the touch panel 2a.

The method of presenting the risk of dementia in such a display format is just an example. That is, the method of presenting the dementia risk by the presentation system 10 is not limited to such a configuration, and the user's brain health data 18a and the sample brain associated with the user's individual characteristics and / or living characteristics are not limited to such a configuration. Anything that presents the result of comparison with the health data 17a may be used. For example, the layout of the screen (report) 50 may be changed as appropriate. Further, only the graph or only the score may be displayed. Further, among the displays related to the score, only one or two of the rank, brain age, and arrow may be displayed. It may be presented in a format completely different from the above display. For example, an image of the user's brain and an image of the brain of a sample subject who has the same individual characteristics as the user and is in an ideal health state are displayed in parallel. It may be displayed. In addition, the result may be presented by voice.

The display contents in the aging display area 51 will be further described. In this report 50, a graph in which the vertical axis is the hippocampal volume and the horizontal axis is the age is displayed as the dementia risk in the secular transition display area 51. This graph includes an aging line 52, an aging forecast line 53, and a risk line 54. The aging transition line 52 shows the transition of the user brain state data 41 from the past to the present of the user. The aging prediction line 53 shows the transition of the user brain state data 41 predicted from the present to the future of the user. The risk line 54 is for indicating the degree of dementia risk that the user or the like should be wary of, and divides the area in the graph into a reference range 54a and a caution zone 54b.

The user or the like can compare the inclination of the aging transition line 52 and the inclination of the aging prediction line 53 with the inclination of the risk line 54, and the position of the aging transition line 52 and the position of the aging prediction line 53 (specifically, the position of the aging prediction line 53). , Is it within the range of the reference range 54a or is within the range of the caution zone 54b), and grasp the magnitude of the dementia risk of the user and the tendency of the dementia risk.

In the process of creating the aging transition line 52 and the aging prediction line 53, the user brain state recognition unit 14 first recognizes the user's current and past brain state data 41. Specifically, the user brain state recognition unit 14 is in the past (when the user is 41 years old in this embodiment) and the present (when determining the risk of dementia (when the user is 45 years old in this embodiment)). In addition, the hippocampal volume is calculated using a predetermined algorithm from the cross-sectional image of the user's brain acquired using MRI3a. As a predetermined algorithm, a technique of predicting the hippocampal volume by an aged generation model of an image using a neural network may be used. Biomarker data information that is highly correlated with living findings may be added to further improve accuracy.

The current risk recognition unit 21 of the risk recognition / prediction unit 20 recognizes the secular transition line 52 regarding the user's brain state based on the user brain state 41 recognized by the user brain state recognition unit 14.

Specifically, as shown in FIG. 3, first, the current risk recognition unit 21 displays the hippocampal volume in the user's past (41 years old) and the hippocampal volume in the past (41 years old) on a graph with the vertical axis representing the hippocampal volume and the horizontal axis representing the age. , The user's current (45 years old) hippocampal volume is plotted. After that, the risk recognition unit 21 generates an aging line 52 by connecting them with a line segment. Based on the user individual characteristic 43, the risk recognition unit 21 acquires sample brain state data 17d associated with the individual characteristic 17b corresponding to the user individual characteristic 43 from the database 17.

An example of a user has an individual characteristic 43 of being male. The risk recognition unit 21 acquires sample brain condition data (that is, hippocampal volume) 17d associated with the individual characteristic 17b of male. Next, the risk recognition unit 21 determines the risk line 54 with reference to the transition of the sample brain state data 17d recognized based on the individual characteristics according to the age.

In FIG. 3, the vertical axis is the hippocampal volume and the horizontal axis is the age, and the sample brain state data 17d extracted by the individual characteristic 17b is plotted. The black circle and the white circle in FIG. 3 represent each sample brain state data 17d, the white circle represents the sample brain state data 17d belonging to the group with a large amount of alcohol consumed, and the black circle represents the other sample brains. Represents state data 17d. In the figure, the first average line 66 showing the average hippocampal volume of the extracted sample brain state data 17d including the group with a large amount of drinking is shown by a solid line, and the sample brain state data 17d of only the group with a large amount of drinking is shown. The second average line 67, which indicates the average of the hippocampal volume, is shown by a broken line. Such statistical processing may be performed in advance, or may be performed by the risk recognition unit 21.

The risk recognition unit 21 generates a risk line 54 shown by a dotted line at a position below the first average line 66. Specifically, a line based on a value (x1-2σ) lower than each value x1 of the first average line 66 by 2σ (“σ” represents the standard deviation of the hippocampal volume (sample brain state data) for each age). A line indicating the lower 2.3%) is generated, and the line is recognized as a risk line 54.

The method of recognizing the risk line 54 of the present invention is not limited to such a method, and the sample brain is based on the sample brain state data 17d associated with the individual characteristics corresponding to the user individual characteristics. Any method may be used as long as it is determined by referring to the transition of the state data according to the age. For example, when the user individual characteristic is male as in the present embodiment, the user life characteristic of the sample brain condition data 17d is not all of the sample brain condition data 17d associated with the individual characteristic of male. The risk line 54 may be defined based on the average line of the sample brain condition data 17d associated with the life characteristic 17c corresponding to 45. Specifically, the risk line 54 may be determined based on the second average line 67, which is a tendency line only for the group with a large amount of alcohol consumption.

Further, for example, the average line itself may be used as the risk line 54 instead of the line based on the value of (-2σ) for each value of the average line. Further, the risk line 54 may be generated by using different values (for example, a value of (-3σ) for each value of the average line). Further, the risk line 54 may be generated by simply referring to the order of the data or the like without generating the risk line 54 based on the data statisticized in this way. Specifically, for example, among the sample brain state data 17d associated with the individual characteristics corresponding to the user individual characteristics, the risk line 54 is set based on the data of a predetermined rank (for example, the data within the lower 3rd order). It may be generated.

Next, the prediction unit 22 of the risk recognition / prediction unit 20 predicts (calculates) the aging prediction line 53 showing the transition of the user's brain health data predicted from the present to the future of the user based on the aging transition line 52. .. The prediction unit 22 determines the aging prediction line 53 based on the individual characteristic 17b corresponding to the user individual characteristic 43, the living characteristic 17c corresponding to the user life characteristic 45, the sample brain health data 17a associated with the age, and the aging transition line 52. Includes the ability to predict.

Based on the user life characteristic 45, the prediction unit 22 is a sample brain state data 17d associated with the life characteristic 17c corresponding to the user life characteristic 45, and in this example, a sample of the individual characteristic that the user drinks a lot. The aging prediction line 53 is generated based on the second average line 67 of the brain state data (white circle) 17d. Specifically, the prediction unit 22 ranges from the reference age of the user brain state data 41 (45 years old, which is the newest time point in the present embodiment) to a predetermined age (50 years old in the present embodiment). With reference to the transition of the second average line 67, a line that follows the same transition as the transition of the second average line 67 is generated as the aging prediction line 53, starting from the age that is the reference of the aging transition line 52.

In the present embodiment, the user life characteristic 45 is referred to when recognizing the aging prediction line 53. This is to recognize a reliable aging prediction line (and thus a tendency for dementia risk). However, the method of recognizing the aging prediction line of the present invention is not limited to such a method, and any method may be used as long as it is a method of recognizing based on the aging transition line 52. For example, the slope of the aging transition line 52 may be recognized, and the slope may be used to generate and recognize the aging prediction line 53. Further, any method may be used as long as it is a method of determining by referring to the transition of the sample brain state data 17d according to the age based on the sample brain state data 17d associated with the life characteristic 17c corresponding to the user life characteristic 45. For example, not only the sample brain state data 17d related to only one living characteristic 17c but also the sample brain state data 17d related to two or more living characteristics 17c may be referred to.

For an unspecified number of sample subjects of age z, the evaluation factor x composed of at least one of the three factors of "sample brain condition data", "sample cognitive ability data", and "user personal characteristics". The regression equation is expressed by the following equation (1), and the regression of the evaluation factor x with respect to the sample subject having a predetermined living characteristic (for example, drinking habit) among an unspecified number of sample subjects of age z. _{When the equation is expressed by the following equation (2), the evaluation factor x t + 1} at the next time point t + 1 (t represents a discrete time such as 5 years, 10 years, etc.) is at the present time point t. Based on the evaluation factor x _t , it is predicted according to the following equation (3).
x = β ₀ + β ₁ z (β ₀ and β ₁ are regression coefficients) ・ ・ ・ (1)
_{x '= β 0' + β} 1 'z (β 0', β 1 ' is the regression coefficient) (2)
x _{t + 1} = x _t + {THEN (x _{t +} 1'-x _t ') ELSE (x _{t + 1} -x _t ) with IF living characteristics}
... (3)

The forecast presentation unit 31a, which displays the chart of the risk presentation unit 30, displays the aging transition line 52, the aging prediction line 53, and the risk line 54 in parallel in the aging transition display area 51 of the report 50 in a comparable manner. The prediction presentation unit 31a may display the plot showing the sample brain state data 17d, the first average line 66, and the second average line 67, but these are deleted so that the user or the like can easily see them. The prediction presentation unit 31a may color the reference range 54a on the upper side of the risk line 54 and the caution zone 54b on the lower side differently. Further, the prediction presentation unit 31a plots the reference ages (41 years, 45 years, 50 years in this embodiment) of the aging transition line 52 and the aging prediction line 53 on the horizontal axis of the graph.

In the present embodiment, the fact that the aging prediction line 53 is above the risk line 54 is the value of the cumulative density function cdf (x | μ, σ) of the evaluation factor x represented by the following equation (4) at the future time point t + 1. It means that cdf (x _{t + 1} | μ _{t + 1} , σ _{t + 1} ) is larger than 2σ.
cdf (x | μ, σ) = (1/2) {1 + erf (x−μ) / (2σ ² ) ^1/2 })
(Erf is an error function) ... (4)

The prediction unit 22 may indicate the aging prediction line 53 with an estimated width 53w indicating a region having a high probability. As shown in FIG. 4, the first average line 66 and the second average line 67 include an error, and 95% CI (Confidence Interval) is indicated by lines 66a and 67a, respectively. The prediction unit 22 obtains the estimated width 53w of the aging prediction line 53 with the estimated width of the second average line 67 of the same age at the future time point t + 1 with respect to the elapsed final time point t of each user, and the prediction presentation unit 31a , The predicted width 53w may be displayed in the secular transition display area 51.

FIG. 5 shows a different example showing the aging prediction line 53 using the estimated width 53w. In this example, it is suggested that the estimated width of dementia risk 53w may fall below the risk line 54 from pre-MCI (pre-stage of Mild Cognitive Impairment) to MCI at a future time point t + 1. , AD (Alzheimer's Disease, Alzheimer's dementia) has been shown to be probabilistically at risk.

As described above, the presentation system 10 presents the dementia risk in a form of comparison with the age-related lines 52, the aging prediction line 53, and the risk line 54. As a result, the user, etc. can grasp not only the magnitude of the user's dementia risk, but also the tendency of the user's dementia risk (whether it is worsening, improving, suppressing the deterioration, etc.) at the same time. it can.

Further, for the same user, the prediction unit 22 of the presentation system 10 has a first aging prediction line 53 based on the first user life characteristic 45 and a second aging prediction line based on the second user life characteristic 45. Includes a comparative prediction unit 22a that recognizes 53a. When the user life characteristic 45 is changed by a user or the like, the displayed content related to the dementia risk also changes according to the changed content. Therefore, the presentation system 10 includes a comparison prediction unit 22a that simulates the result of changing the user life characteristic 45, and a comparison presentation unit 31b that presents the results side by side or continuously in a comparable manner.

FIG. 6 shows two types of reports 50 in which the user life characteristic 45 is changed and the aging prediction line 53 is changed. In the report 50 shown in FIG. 6A, the content of the amount of alcohol consumed in the living characteristic display area 58 is set to “daily”, and in the report 50 shown in FIG. 6B, the content of the drinking amount in the living characteristic display area 58 is set to “daily”. The content of drinking has been changed to "2 to 3 times a week". As a result, in the report 50 shown in FIG. 6 (b), the aging prediction line 53a displayed in the aging transition display area 51 is above the aging prediction line 53 shown in the report 50 of FIG. 6 (a). It has a slope away from the risk line 54, indicating that the risk of dementia is reduced.

In the comparative prediction unit 22a, when the content of the drinking amount of the user life characteristic 45 is changed from "daily" to "2 to 3 times a week", drinking is taken from the sample brain state data 17d extracted in FIG. A new average line (third average line, not shown) is obtained by extracting a sample with a small amount, and a new aging prediction line 53a is generated based on the average line by the same processing as the aging prediction line 53. .. The comparative presentation unit 31b may present the first aging prediction line 53 under the previous condition and the second aging prediction line 53a under the next condition as separate reports 50, which can be referred to inside the report 50. It may be presented side by side as follows. The comparison presentation unit 31b may continuously display the first aging prediction line 53 and the second aging prediction line 53a in a comparable manner. Specifically, after hiding the first aging prediction line 53 after a lapse of a predetermined time, the second aging is within the time when the user or the like grasps the rough shape of the first aging prediction line 53. The prediction line 53a may be displayed.

The comparison prediction unit 22a and the comparison presentation unit 31b may obtain and present the aging prediction line 53 by changing the conditions of the user life characteristic 45 as many times as necessary, not limited to twice. With this function, the user or the like can intuitively grasp the fluctuation of the dementia risk according to the fluctuation of the living characteristic 45 by using the presentation system 10. As a result, the user or the like can grasp the living characteristics to be improved concretely, and can be given an incentive for the improvement of the living characteristics.

The risk recognition / prediction unit 20 of the presentation system 10 includes a score calculation unit 23 that converts the dementia risk into a score, and the risk presentation unit 30 includes a score presentation unit 32 that presents the dementia risk based on the score. .. The score calculation unit 23 uses the user brain state data 41, the user cognitive ability data 61, the user individual characteristic 43, and the sample brain state data 17d and the sample cognitive ability data 17e recognized based on the user life characteristic 45. By comparison, scoring is performed based on the result of the comparison, and the rank, brain age, and corresponding symbol are determined based on the score.

_{For example, the value cdf (x t} | μ _t , σ) at the present time t of the cumulative density function cdf (x | μ, σ) of the evaluation factor x such as the sample brain state data 17d shown in the equation (4) above. _t ) may be defined as the score S. The score S has a plurality of numerical ranges (for example, 0.0 <S ≦ 0.25, 0.25 <S ≦ 0.50, 0.50 <S ≦ 0.75, 0.75 <S ≦ 1.0. Rank 55 may be determined according to which of the four numerical ranges) is included in the numerical range. Further, the score calculation unit 23 determines the brain age 56a by referring to a table in which various values of the score S or each of the plurality of numerical ranges are associated with each of the plurality of brain ages. The function 23a may be included.

Further, the score calculation unit 23 determines that the cumulative density function cdf (x | μ, σ) of the evaluation factor x has the value cdf (x _{t + 1} | μ _{t + 1} , σ _{t + 1} ) at the future time point t + 1. It may include a function 23b that determines the symbol 56b corresponding to the score based on the deviation from the _{value cdf (x t} | μ _t , σ _t ) at the present time point t. If the deviation is a positive value or is greater than or equal to a predetermined positive value, the risk may be reduced, and if the deviation is a negative value or is less than or equal to a predetermined negative value, the risk may be increased. If there is a tendency, the deviation is 0, or the magnitude is less than a predetermined positive value and larger than a predetermined negative value, it is determined that there is no change in the risk. Then, the symbol 56b corresponding to the score S is determined according to the risk “possible decrease”, “possible increase”, and “no change”.

In the function 23b for determining the symbol, the value cdf (xt + 1 | μt + 1, σt + 1) of the evaluation factor x at the future time point t + 1 indicates (-2σ, (lower 2.3%) of the population. It may include a function of determining the long-term prediction symbol 56b corresponding to the score S based on whether it is 0.023 or more, which is equivalent to the threshold value)), or less.

The score calculation method is not limited to the method using parametric modeling as in the method using the cumulative density function described above. For example, a method using non-parametric ranking may be used. Specifically, various methods for calculating quantiles using the average rank, media rank, approximation, and the like may be used.

The score presentation unit 32 of the presentation system 10 displays (outputs) the rank 55, the brain age 56a, the arrow 56b, and the legend 56c regarding the rank determined based on the score on the touch panel 2a of the tablet 2 or the report 50. .. As described above, the presentation system 10 presents the risk of dementia as a score or a symbol corresponding to the score. As a result, the user or the like can intuitively grasp the magnitude of the user's risk of dementia.

In addition to the function of calculating the current dementia risk score and displaying it via the first score presenting unit 32a, the score calculation unit 23 calculates the dementia risk score of the user in the future, for example, one year later. It may include the function 23c to calculate. The function 23c for calculating the future score is associated with the user brain health data 18a of the first age on the aging prediction line 53 and the individual characteristic corresponding to the individual characteristic 17b obtained by adding the first age to the user individual characteristic 43. Based on the result of comparison with the sample brain health data 17a obtained, a score indicating the future risk of dementia of the user is obtained, and the score calculated by the second score presenting unit 32b or a symbol corresponding to the score is obtained. May be output with or instead of the aging prediction line 53.

The function 23c for calculating the future score includes the user brain health data 18a of the first age on the aging prediction line 53, the individual characteristic 17b corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic 43, and the individual characteristic 17b. Based on the result of comparison with the sample brain health data 17a associated with the life characteristic 17c corresponding to the user life characteristic 45, a score indicating the future risk of dementia of the user is obtained, and the third score presenting unit 32c determines the score. The calculated score or a symbol corresponding to the score may be output together with or instead of the aging prediction line 53. The function 23c for calculating the future score is a function for calculating the score based on the user brain health data 18a specified by the user or arbitrarily selected instead of the user brain health data 18a on the aging prediction line 53. It may be included.

The function 23c for calculating the future score may include a simulation function 23d for changing the user life characteristic 45 and confirming how the score changes. This function 23d includes the user brain health data 18a of the first age on the first aging prediction line 53 reflecting the first user life characteristic 45, and the individual characteristic obtained by adding the first age to the user individual characteristic 43. Based on the results of comparison with the sample brain health data 17a associated with the individual characteristic 17b corresponding to the first user life characteristic 45 and the life characteristic 17c corresponding to the first user life characteristic 45, the first indicating the user's future risk of dementia. Calculate the score of. Further, this function 23d includes the user brain health data 18a of the first age on the second aging prediction line 53a based on the second user life characteristic 45, and the individual characteristic obtained by adding the first age to the user individual characteristic. Based on the results of comparison with the sample brain health data 17a associated with the individual characteristic 17b corresponding to 43 and the living characteristic 17c corresponding to the second user living characteristic 45, the user's future risk of dementia is shown. Calculate a score of 2. The fourth score presenting unit 32d may output the first and second scores, or symbols corresponding thereto, together with or instead of the aging prediction line. When the user's life characteristics are changed by the user or the like, the displayed contents related to the dementia risk also change according to the changed contents.

In the report 50 shown in FIG. 7 (a), the content of the amount of alcohol consumed in the living characteristic display area 58 is “daily”, and in the report 50 shown in FIG. 7 (b), the content of the amount of alcohol consumed is “weekly”. It has been changed to "2 to 3 times". In these reports 50, the risk of dementia at a certain point in the future, for example, one year later, is displayed as a score, and by changing the content of alcohol consumption from "daily" to "2 to 3 times a week", The aging prediction line 53 has changed, and the sample brain health data 17a to be compared is changed from the "high-drinking group" to the "low-drinking group". In this case, the overall risk determination 55 has changed from "B" to "A", the brain age 56a has become younger, and the long-term prediction symbol 56b has also changed to a flat direction.

As described above, in the presentation system 10, the future risk of dementia can be output to a score, a rank, or the like according to the change of the user life characteristic 45. Therefore, the user or the like can intuitively grasp the change in the risk of dementia according to the change in the living characteristics. As a result, the user or the like can grasp the living characteristics to be improved concretely, and can be given an incentive for the improvement of the living characteristics.

FIG. 8 shows examples of different types of reports showing the risk of dementia. This report 50 is output from the risk presentation unit 30 of the presentation system 10 in the same manner as described above. The report 50 includes the score display area 57, the secular transition display area 51 of the user brain state data 41, the analysis result display area 75 of the user cognitive ability data 61, and the secular transition display area 71 of the user cognitive ability data 61. .. The score display area 57 includes the display of the CQ score (Cognitive Quotient Score) 76 in addition to the rank 55 and the brain age 56a. The CQ score 76 is a comprehensive score of individual cognitive ability / brain function based on each cognitive function test. When the average is set to 100 and the standard deviation is set to 15, IQ (intelligence quotient) and other cognitive test The scale is compatible with scoring. The CQ score (cq) 76 is calculated by the following formula (5).
[Equation 5]

The variable xi is the evaluation result of each domain of the cognitive ability test 60, and in this report 50, it is the test result of each function of short-term memory, working memory, executive function, spatial cognition, and calculation. The test items (domains) included in the cognitive test 60 are not limited to these, and may be a combination of forward singing, reverse singing, calculation, Stroop test, mental rotation, or a combination of other test items. Good. In the formula (5), the total score (cq, CQ score) 76 is the sum of the scores of each test item (domain) after standardizing the normal distribution (z).

In this report 50, the cumulative density function cdf (cq | μ, σ) 77 of the same age is obtained using the cumulative density function shown in the equation (4), and the rank is determined by the numerical range including the calculated CQ score 76. I'm looking for 55. For example, assuming a normal distribution with an average of 100 and a standard deviation of 15, the region of "Above" with a deviation value (standard score) exceeding 110 is ranked A, and "Average and Low" with a deviation value of 80-110. The "Average" region is set to rank B, the "Low" region with a deviation value of 70-79 is set to rank C, and the "Very Low" region with a deviation value of less than 70 is set to rank D.

The cognitive ability test is not limited to these, and a test or test for measuring the state of brain health (including the state of cognitive function and the presence / absence and degree of brain disease and mental illness) listed in FIGS. 9 and 10 and others. Scores may be assessed according to a similar type of test or test.

The analysis result display area 75 of the report 50 includes a radar chart 78 showing the results of each item (short-term memory, working memory, executive function, spatial cognition, calculation) of the cognitive test 60 and the standard of the same age. In the secular transition display area 71 of the user cognitive ability data 61, the secular transition lines 72a to 72e of each item (short-term memory, working memory, executive function, spatial cognition, calculation) of the user cognitive ability data 61 are the same as the risk lines. The standard lines 74a to 74e of the age group are shown.

In the secular transition display area 51 of the report 50, in addition to the secular transition line 52 of the user brain state data 41 and the risk line 54, the average transition line 65 of the same age group is shown based on the user individual characteristics 43. From these displays, the user can clearly grasp the risk of dementia and the course of the health condition of the brain by looking at the report 50.

FIG. 11 shows an outline of the processing in the presentation system 10 described above by using a flowchart. In step 101, the first recognition unit 11 obtains at least one of the user brain state data 41, which is data related to the user's brain state, and the user cognitive ability data 61, which is data related to cognitive ability, which is a function of the brain. Recognize (acquire) user brain health data 18a including. In step 102, the second recognition unit (individual characteristic input unit) 12 recognizes (acquires) the user individual characteristic 43, which is the individual characteristic of the user. In step 103, the presentation system 10 determines if predictive processing is required, and if predictive processing is not required, in step 104, the risk presentation unit 30 is based on past and present user brain health data 18a. The sample brain health data is based on the secular transition line 52 showing the transition of the user brain health data 18a from the past to the present and the sample brain health data 17a associated with the individual characteristic 17b corresponding to the user individual characteristic 43. The risk is presented by the risk line 54 for dementia determined with reference to the age-related transition of the data.

In step 105, the risk presentation unit 30 further recognizes the user based on the result of comparison between the user brain health data 18a and the sample brain health data 17a associated with the individual characteristic 17b corresponding to the user individual characteristic 43. A score of 55 indicating the risk of dementia or a symbol corresponding to the score is presented. Further, in step 106, the risk presentation unit 30 creates a report 50 including such information and provides it to the user. The report 50 at this stage is a report that does not include the aging forecast line.

When the prediction process is requested in step 103, in step 107, the presentation system 10 further determines whether or not the user life characteristic is input. If the user life characteristic 45 is input, in step 108, the third recognition unit (life characteristic input unit) 13 recognizes (acquires) the user life characteristic 45, which is the user's life characteristic. In step 109, the prediction unit 22 of the risk recognition / prediction unit 20 sets the individual characteristic 17b corresponding to the user individual characteristic 43, the life characteristic 17c corresponding to the user life characteristic 45, the sample brain health data 17a associated with the age, and the aging. The aging prediction line 53 is predicted (calculated) based on the transition line 52. When the user life characteristic 45 is not input in step 108, in step 109, the prediction unit 22 uses the aging prediction line based on the sample brain health data 17a associated with the individual characteristic 17b and the aging transition line 52. Generate 53.

In step 110, the risk presentation unit 30 presents the aging prediction line 53 in addition to the aging transition line 52 and the risk line 54. In step 111, the score calculation unit 23 includes the user brain health data 18a of the first age on the aging prediction line 53, the individual characteristic 17b corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic 43, and the individual characteristic 17b. Based on the result of comparison with the sample brain health data 17a associated with the life characteristic 17c corresponding to the user life characteristic 45, a score 55 indicating the future risk of dementia of the user is calculated, and the risk presentation unit 30 calculates the score 55. 55 or a symbol corresponding to the score is presented with or instead of the aging prediction line 53. If the user life characteristic 45 is not input in step 108, the score calculation unit 23 calculates the score 55 based on the sample brain health data 17a associated with the individual characteristic 17b in step 110.

In step 112, the presentation system 10 determines whether a different (next) user life characteristic 45 is provided. When different user life characteristics 45 are provided, the process returns to step 108 to acquire different life characteristics (second user life characteristics) 45, and the same process as described above is performed. In step 109, the second aging prediction line 53a related to the second user life characteristic 45 is predicted, and in step 110, the first aging prediction related to the previous life characteristic (first user life characteristic) 45 is predicted. The line 53 and the second aging prediction line 53a related to the second user life characteristic 45 are presented side by side or continuously in a comparable manner. In step 111, the second score 55 on the second aging prediction line 53a related to the second user life characteristic 45 is calculated, and the second aging prediction line 53 related to the first user life characteristic 45 is calculated. Presented with or in place of the aging prediction lines 53 and 53a, in a state comparable to the first score 55.

If there is no input of the next user life characteristic in step 112, it is determined in step 113 whether or not a plurality of predictions are executed, and if a plurality of predictions are not executed, the risk presentation unit is in step 114. 30 creates a report 50 including an aging transition line 52, an aging prediction line 53, a risk line 54, a score 55, and the like, and provides the report 50 to the user. If a plurality of aging prediction lines 53 are generated, in step 115, the risk presenting unit 30 creates a report 50 including a plurality of simulated aging prediction lines 53 and a plurality of scores 55 and provides the report 50 to the user. ..

In this embodiment, when scoring the risk of dementia, brain state data and cognitive ability data are used with reference to user life characteristics. This is to recognize the reliability score (and thus the risk of dementia). However, the scoring method of the present invention is not limited to such a method, and is based on the result of comparison between the user brain state data and the sample brain state data associated with the individual characteristics corresponding to the user individual characteristics. It suffices if scoring is performed based on this. For example, it is not necessary to refer to the living characteristics, or it is possible to use only the brain state data without using the cognitive ability data.

Further, as in the report 50 shown in FIG. 2, when a secular transition display area 51 is provided together with the score display area 57 and the dementia risk based on the brain state data is displayed in the secular transition display area 51, the score is obtained. The score 55 or the like to be displayed in the display area 57 may be obtained by referring only to the cognitive ability data.

As described above, the presentation system 10 includes data related to the brain state of the user to be risk-determined (user brain state data) and data related to the brain state of the sample subject (sample brain state data). We recognize the risk of dementia by comparing brain health data. The data related to the brain state are direct data called quantitative parameters based on the state of the brain that affect cognitive ability. That is, this dementia risk presentation system 10 uses direct data such as data related to the brain state, instead of indirect data such as brain function inferred from the user's brain waves, movements, etc. as in the conventional system. be able to.

As a result, the presentation system 10 is less affected by the accuracy of guessing regarding the function of the brain in recognizing the risk of dementia. As a result, according to this presentation system 10, the risk of dementia can be recognized more accurately than the conventional system.

Further, in this presentation system 10, the recognized dementia risk can be presented to the user or the like in the form of a result of comparison between the user brain state data and the sample brain state data. As a result, according to the presentation system 10, the user or the like can intuitively grasp the magnitude of the dementia risk even if he / she does not have sufficient knowledge. In addition, the presentation system 10 can present the dementia risk in a form of comparison with the age-related line, which is the secular transition line and the risk line. Therefore, the user or the like can grasp not only the magnitude of the user's dementia risk but also the tendency of the user's dementia risk (whether it is worsening, improving, suppressing the deterioration, etc.) at the same time. become able to. In addition, the aging prediction line, which is a prediction of the transition of dementia risk from the present to the future, can be presented in a comparable manner with the risk line, so that the user, etc. can more accurately grasp the tendency of the user's dementia risk. it can.

In addition, the presentation system 10 can refer to one or more user life characteristics when recognizing the aging prediction line, recognizes a highly reliable aging prediction line (and thus a tendency of dementia risk), and at the same time, recognizes the aging prediction line. The user and the like can more accurately grasp the tendency of the user's risk of dementia. Furthermore, by presenting the aging prediction lines related to multiple user life characteristics in a form that can be compared, users and the like can intuitively grasp the changes in the aging prediction lines (and thus the risk of dementia) according to the changes in the living characteristics. can do. As a result, the user or the like can grasp the living characteristics to be improved concretely, and can be given an incentive for the improvement of the living characteristics.

Further, the presentation system 10 can present the risk of dementia as a score or the like. When recognizing a score or the like, the user or the like can recognize a highly reliable score or the like (and thus a risk of dementia) by referring to the user's life characteristics. As a result, the user and the like can more accurately grasp the tendency of the user's risk of dementia. In addition, since the user or the like can grasp the specific living characteristics to be improved, an incentive for improving the living characteristics can be given.

The above is a dementia risk presentation system that presents the user's dementia risk, and the sample brain condition data, which is data related to the brain condition of the sample subject, is the age, gender, and physical information of the sample subject. A data storage unit that is stored in association with an individual characteristic including at least one of the above, a user brain state recognition unit that recognizes user brain state data that is data related to the user's brain state, and an individual characteristic of the user. A user individual characteristic recognition unit that recognizes the user individual characteristics, and a risk recognition unit that compares the user brain state data with the sample brain state data associated with the individual characteristics corresponding to the user individual characteristics. A dementia risk presentation system is disclosed, which comprises a risk presentation unit that presents the result of comparison by the risk recognition unit. The sample brain state data and the user brain state data are data indicating the total capacity of the brain or the capacity of at least one predetermined region of the brain, and the risk recognition unit is the past user brain state data and the user brain state data. Based on the current user brain state data, the sample associated with the individual characteristic corresponding to the user individual characteristic by recognizing the secular transition line showing the transition of the user brain state data from the past to the present of the user. Based on the brain condition data, the risk line determined by referring to the transition of the sample brain condition data according to the age is recognized, and the risk presenting unit can compare the secular transition line with the risk line. It may be presented in parallel with.

The risk recognition unit recognizes the aging transition line and the risk line, and based on the aging transition line, provides an aging prediction line showing the transition of the user brain state data predicted from the present to the future of the user. Recognizing, the risk presenting unit may present the aging transition line, the aging prediction line, and the risk line in parallel in a comparable manner. The system includes a user life characteristic recognition unit that recognizes a user life characteristic that is a life characteristic including at least one of the user's lifestyle and living environment, and the data storage unit stores the sample brain state data in the individual. The sample brain is stored in association with the characteristics and the living characteristics of the sample subject, and the risk recognition unit is based on the sample brain state data associated with the living characteristics corresponding to the user living characteristics. The tendency line showing the transition of the state data according to the age may be recognized, and the aging prediction line may be recognized based on the tendency line and the aging transition line. When the user life characteristic is changed, the risk recognition unit recognizes the aging prediction line again based on the changed user life characteristic, and the risk presentation unit recognizes the user life characteristic before the change. The aging prediction line recognized based on the above and the aging prediction line recognized based on the changed user life characteristics are presented in parallel in a comparable manner or continuously in a comparable manner. May be good.

The risk recognition unit scores the user's risk of dementia based on the result of comparison between the user brain state data and the sample brain state data associated with the individual characteristic corresponding to the user individual characteristic. The risk presenting unit may present the score or a symbol corresponding to the score. The system includes a user life characteristic recognition unit that recognizes the user life characteristic, which is the life characteristic of the user, and the data storage unit uses the sample brain state data, the individual characteristics, and the lifestyle of the sample target person. And stored in association with a living characteristic including at least one of the living environment, the risk recognition unit comprises the user brain state data and the sample brain state data associated with the individual characteristic corresponding to the user individual characteristic. The user's risk of dementia may be recognized as a score based on the result of comparison with the sample brain state data associated with the living characteristic corresponding to the user living characteristic.

The system includes a user life characteristic recognition unit that recognizes the user life characteristic, which is the life characteristic of the user, and the data storage unit uses the sample brain state data, the individual characteristics, and the lifestyle of the sample target person. And stored in association with a living characteristic including at least one of the living environment, the risk recognition unit recognizes the score again based on the changed user living characteristic when the user living characteristic is changed. Then, the risk presenting unit includes the score or the symbol corresponding to the score recognized based on the user life characteristic before the change, and the score or the score recognized based on the user life characteristic after the change. The symbols corresponding to the above may be presented in parallel in a comparable manner or continuously in a comparable manner.

In the above, the sample brain condition data, which is a dementia risk presentation method for presenting the dementia risk of the user and the data storage unit is data related to the brain condition of the sample subject, is the sample subject. A step stored in association with an individual characteristic including at least one of age, gender, and physical information, and a user brain state recognition unit recognizes user brain state data which is data related to the user's brain state. The step, the step in which the user individual characteristic recognition unit recognizes the user individual characteristic, which is the individual characteristic of the user, and the risk recognition unit are associated with the user brain state data and the individual characteristic corresponding to the user individual characteristic. A dementia risk presentation method is disclosed, which comprises a step of comparing with the sample brain state data and a step of presenting the result of comparison by the risk recognition unit. There is.

Although the illustrated embodiment has been described above, the present invention is not limited to such an embodiment. For example, in the presentation system of the above embodiment, the value of the hippocampal volume (hippocampal volume) is used as the data related to the brain state. In addition, when determining the risk of dementia, the user life characteristics are referred to in addition to the user individual characteristics. However, the dementia risk presentation system of the present invention is not limited to such a configuration, and may be any one that determines the dementia risk by comparing brain state data based on individual characteristics. For example, instead of hippocampal volume, values relating to the entire brain or other regions may be used, or life characteristics may not be referred to. In addition, other changes that can be conceived by those skilled in the art are included in the scope of the present invention in accordance with the scope of claims.

10 presentation system, 17 database

In the above, the sample brain condition data, which is a dementia risk presentation method for presenting the dementia risk of the user and the data storage unit is data related to the brain condition of the sample subject, is the sample subject. A step stored in association with an individual characteristic including at least one of age, gender, and physical information, and a user brain state recognition unit recognizes user brain state data which is data related to the user's brain state. The step, the step in which the user individual characteristic recognition unit recognizes the user individual characteristic, which is the individual characteristic of the user, and the risk recognition unit are associated with the user brain state data and the individual characteristic corresponding to the user individual characteristic. A dementia risk presentation method is disclosed, which comprises a step of comparing with the sample brain state data and a step of presenting the result of comparison by the risk recognition unit. There is.
In addition, the above includes sample brain health data including at least one of sample brain condition data which is data related to the brain condition of the sample subject and sample cognitive ability data which is data related to cognitive ability which is a function of the brain. A first database associated with individual characteristics including at least one of the age, gender and physical information of the sample subject, user brain condition data and brain function which are data relating to the user's brain condition. A first recognition unit that recognizes user brain health data including at least one of user cognitive data, which is data related to cognitive ability, and a second recognition unit that recognizes user individual characteristics, which are individual characteristics of the user. Based on the past and present user brain health data, an aging line showing the transition of the user brain health data from the past to the present of the user, and the individual characteristics associated with the individual characteristics corresponding to the user individual characteristics. A system having a risk presentation unit that presents a risk line related to dementia determined by referring to the transition of the sample brain health data according to the age based on the sample brain health data is disclosed.
The risk presenting unit is a score indicating the dementia risk of the user based on the result of comparison between the user brain health data and the sample brain health data associated with the individual characteristic corresponding to the user individual characteristic. , Or a first score presenting unit that presents a symbol corresponding to the score may be included. This system has a prediction unit that predicts an aging prediction line that indicates the transition of the user's brain health data predicted from the present to the future of the user based on the aging line, and the risk presenting unit is the risk presenting unit. In addition to the aging transition line and the risk line, a forecast presentation unit that presents the aging forecast line may be included. The risk presenting unit is associated with the user brain health data of the first age on the aging prediction line and the individual characteristic corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic. A second score that presents a score indicating the user's future risk of dementia, or a symbol corresponding to the score, together with or instead of the aging prediction line, based on the result of comparison with sample brain health data. It may include a presentation part.
In the first database, the sample brain health data is associated with the individual characteristics and the living characteristics including at least one of the lifestyle and living environment of the sample subject, and the living characteristics of the user. It further has a third recognition unit that recognizes a user life characteristic, and the prediction unit is associated with the individual characteristic corresponding to the user individual characteristic, the life characteristic corresponding to the user life characteristic, and the age. The aging prediction line may be predicted based on the sample brain health data and the aging line. The risk presenting unit includes the user brain health data of the first age on the aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the user life. Based on the result of comparison with the sample brain health data associated with the living characteristic corresponding to the characteristic, a score indicating the future risk of dementia of the user or a symbol corresponding to the score is predicted over time. It may include a third score presenter that is presented with or instead of the line. The prediction unit recognizes the first aging prediction line based on the first user life characteristic and the second aging prediction line based on the second user life characteristic for the same user. The risk presentation unit may include a comparison presentation unit that presents the first aging prediction line and the second aging prediction line in a comparable manner, side by side, or continuously. The risk presenting unit includes the user brain health data of the first age on the first aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the individual characteristics. Based on the result of comparison with the sample brain health data associated with the living characteristic corresponding to the first user living characteristic, the first score indicating the future risk of dementia of the user, or the first score. The symbol corresponding to the score of 1, the user brain health data of the first age on the second aging prediction line, and the individual corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic. A second score indicating the user's future risk of dementia, or a second score, based on the results of comparison with the sample brain health data associated with the trait and the living trait corresponding to the second user living trait, or , The symbol corresponding to the second score may be included with or instead of the first aging prediction line and the second aging prediction line. The sample brain state data and the user brain state data may include data indicating at least one of the total capacity of the brain, the capacity of at least one predetermined region of the brain, brain images, electroencephalograms, and cerebral blood flow.
In addition, the above includes sample brain health data including at least one of sample brain state data which is data related to the brain state of the sample subject and sample cognitive ability data which is data related to cognitive ability which is a function of the brain. Disclosed is a method of presenting the risk of dementia using a system that can refer to a first database associated with an individual characteristic including at least one of the sample subject's age, gender and physical information. This method recognizes user brain health data including at least one of user brain state data, which is data related to the user's brain state, and user cognitive ability data, which is data related to cognitive ability, which is a function of the brain. A secular transition line showing the transition of the user brain health data from the past to the present of the user based on the recognition of the user individual characteristic which is the individual characteristic of the user and the past and present user brain health data. , Based on the sample brain health data associated with the individual characteristic corresponding to the user individual characteristic, and the risk line for dementia determined with reference to the age-related transition of the sample brain health data. Has to present.
This method provides a score indicating the user's risk of dementia, or a score indicating the user's risk of dementia, based on the result of comparison between the user brain health data and the sample brain health data associated with the individual characteristic corresponding to the user individual characteristic. , May have to present a symbol corresponding to the score. This method has to predict the aging prediction line showing the transition of the user's brain health data predicted from the present to the future of the user based on the aging transition line, and presenting the risk is to present the risk. In addition to the aging line and the risk line, it may include presenting the aging forecast line. In this method, the user brain health data of the first age on the aging prediction line and the sample brain associated with the individual characteristic corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic. Based on the results of comparison with health data, a score indicating the user's future risk of dementia, or a symbol corresponding to the score, may be presented with or instead of the aging prediction line. Good.
In the first database, the sample brain health data is associated with the individual characteristics and living characteristics including at least one of the lifestyle and living environment of the sample subject, and the method further comprises. Having to recognize the user life characteristic which is the life characteristic of the user, the prediction is associated with the individual characteristic corresponding to the user individual characteristic, the life characteristic corresponding to the user life characteristic, and the age. It may include predicting the aging prediction line based on the sample brain health data and the aging line. This method applies to the user brain health data of the first age on the aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the user life characteristics. Based on the result of comparison with the sample brain health data associated with the corresponding life characteristic, a score indicating the future risk of dementia of the user or a symbol corresponding to the score is provided together with the aging prediction line. , Or may have to present instead. The prediction predicts the first aging prediction line based on the first user life characteristic and the second aging prediction line based on the second user life characteristic for the same user. Including that, presenting the risk may include presenting the first aging prediction line and the second aging prediction line in a comparable manner or continuously. In this method, the user brain health data of the first age on the first aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the first. A first score indicating the user's future risk of dementia, or the first score, based on the result of comparison with the sample brain health data associated with the life characteristic corresponding to one user life characteristic. The symbol corresponding to the score, the user brain health data of the first age on the second aging prediction line, and the individual characteristic corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic. And a second score indicating the user's future risk of dementia, or the said, based on the result of comparison with the sample brain health data associated with the living characteristic corresponding to the second user living characteristic. A symbol corresponding to the second score may be presented with or in place of the first aging line and the second aging line.
Further, in the above, a program having an instruction for operating a computer as a system is disclosed in any of the above.

Claims (18)

The sample brain health data including at least one of the sample brain condition data which is the data related to the brain condition of the sample subject and the sample cognitive ability data which is the data related to the cognitive ability which is the function of the brain is the sample brain health data of the sample subject. A first database associated with individual characteristics, including at least one of age, gender and physical information, and
A first recognition unit that recognizes user brain health data including at least one of user brain state data, which is data related to the user's brain state, and user cognitive ability data, which is data related to cognitive ability, which is a function of the brain. ,
A second recognition unit that recognizes the user's individual characteristics, which is the user's individual characteristics, and
Based on the past and present user brain health data, a secular transition line showing the transition of the user brain health data from the past to the present of the user, and the sample associated with the individual characteristic corresponding to the user individual characteristic. A system having a risk presentation unit that presents a risk line related to dementia determined by referring to the transition of the sample brain health data according to the age based on the brain health data. In claim 1,
The risk presenting unit is a score indicating the dementia risk of the user based on the result of comparison between the user brain health data and the sample brain health data associated with the individual characteristic corresponding to the user individual characteristic. , Or a system comprising a first score presenting unit that presents a symbol corresponding to the score. In claim 1 or 2, further
Based on the aging line, it has a prediction unit that predicts the aging prediction line that shows the transition of the user's brain health data predicted from the present to the future of the user.
The risk presentation unit is a system including a prediction presentation unit that presents the aging prediction line in addition to the aging transition line and the risk line. In claim 3,
The risk presenting unit is associated with the user brain health data of the first age on the aging prediction line and the individual characteristic corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic. A second score that presents a score indicating the user's future risk of dementia, or a symbol corresponding to the score, together with or instead of the aging prediction line, based on the result of comparison with sample brain health data. A system that includes a presentation section. In claim 3 or 4,
In the first database, the sample brain health data is associated with the individual characteristics and living characteristics including at least one of the lifestyle and living environment of the sample subject.
It further has a third recognition unit that recognizes the user life characteristic, which is the user life characteristic.
The prediction unit predicts the aging based on the sample brain health data associated with the individual characteristics corresponding to the individual user characteristics, the living characteristics corresponding to the user living characteristics, and the age, and the aging transition line. A system that predicts lines. In claim 5,
The risk presenting unit includes the user brain health data of the first age on the aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the user life. Based on the result of comparison with the sample brain health data associated with the living characteristic corresponding to the characteristic, a score indicating the future risk of dementia of the user or a symbol corresponding to the score is predicted over time. A system that includes a third score presenter that presents with or instead of the line. In claim 5 or 6,
The prediction unit recognizes the first aging prediction line based on the first user life characteristic and the second aging prediction line based on the second user life characteristic for the same user. Including the forecast part
The risk presenting unit includes a comparative presenting unit that presents the first aging prediction line and the second aging prediction line in a comparable manner, side by side or continuously. In claim 7,
The risk presenting unit includes the user brain health data of the first age on the first aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the individual characteristics. Based on the result of comparison with the sample brain health data associated with the living characteristic corresponding to the first user living characteristic, the first score indicating the future risk of dementia of the user, or the first score. Symbols according to the score of 1 and
The user brain health data of the first age on the second aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the second user life. Based on the result of comparison with the sample brain health data associated with the living trait corresponding to the trait, a second score indicating the user's future risk of dementia, or according to the second score. A system comprising a fourth score presenting section that presents a symbol with or instead of the first aging line and the second aging line. In any of claims 1 to 8,
The sample brain state data and the user brain state data include data indicating at least one of the total capacity of the brain, the capacity of at least one predetermined region of the brain, brain images, electroencephalograms, and cerebral blood flow. The sample brain health data including at least one of the sample brain condition data which is the data related to the brain condition of the sample subject and the sample cognitive ability data which is the data related to the cognitive ability which is the function of the brain is the sample brain health data of the sample subject. A method of presenting the risk of dementia using a system that can refer to a first database associated with individual characteristics including at least one of age, gender and physical information.
Recognizing user brain health data including at least one of user brain state data, which is data related to the user's brain state, and user cognitive ability data, which is data related to cognitive ability, which is a function of the brain.
Recognizing the individual user characteristics, which are the individual characteristics of the user,
Based on the past and present user brain health data, a secular transition line showing the transition of the user brain health data from the past to the present of the user, and the sample associated with the individual characteristic corresponding to the user individual characteristic. A method of presenting a risk based on brain health data with a risk line for dementia determined with reference to age-related transitions of the sample brain health data. In claim 10, further
Based on the result of comparison between the user brain health data and the sample brain health data associated with the individual characteristic corresponding to the user individual characteristic, the score indicating the risk of dementia of the user, or the score. A method having to present a corresponding symbol. In claim 10 or 11, further
Based on the aging line, it has the ability to predict the aging prediction line showing the transition of the user's brain health data predicted from the present to the future of the user.
Presenting the risk comprises presenting the aging prediction line in addition to the aging line and the risk line. In claim 12, further
The user brain health data of the first age on the aging prediction line and the sample brain health data associated with the individual characteristic corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic. A method comprising presenting a score indicating the user's future risk of dementia, or a symbol corresponding to the score, with or in place of the aging prediction line, based on the results of the comparison. In claim 12 or 13,
In the first database, the sample brain health data is associated with the individual characteristics and living characteristics including at least one of the lifestyle and living environment of the sample subject.
The method further comprises recognizing the user life characteristic, which is the life characteristic of the user.
The prediction is based on the sample brain health data associated with the individual characteristics corresponding to the user individual characteristics, the living characteristics corresponding to the user living characteristics, and the age, and the aging transition line. A method that involves predicting a prediction line. In claim 14, further
The user brain health data of the first age on the aging prediction line, the individual characteristic corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic, and the life corresponding to the user life characteristic. Based on the results of comparison with the sample brain health data associated with the trait, a score indicating the user's future risk of dementia, or a symbol corresponding to the score, along with or instead of the aging prediction line. A method that has to present. In claim 14 or 15,
The prediction predicts the first aging prediction line based on the first user life characteristic and the second aging prediction line based on the second user life characteristic for the same user. Including that
Presenting the risk comprises presenting the first aging prediction line and the second aging prediction line in a comparable manner, side by side, or in succession. In claim 16, further
The user brain health data of the first age on the first aging prediction line, the individual characteristics corresponding to the individual characteristics obtained by adding the first age to the user individual characteristics, and the first user life. Based on the result of comparison with the sample brain health data associated with the living trait corresponding to the trait, the first score indicating the user's future risk of dementia, or the first score. The symbol, the user brain health data of the first age on the second aging prediction line, the individual characteristic corresponding to the individual characteristic obtained by adding the first age to the user individual characteristic, and the second. A second score indicating the user's future risk of dementia, or the second score, based on the result of comparison with the sample brain health data associated with the life characteristic corresponding to the user's life characteristic. A method comprising presenting a symbol corresponding to, along with or in place of the first aging line and the second aging line. A program according to any one of claims 1 to 9, wherein the program has an instruction for operating a computer as a system.

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