JP2003052656A - Apparatus and method for analyzing electroencephalogram and electroencephalogram analytic program and computer readable recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To objectively judge the presence or absence of a psychoneurotic disease by a simple method even by not a skilled physician while the burden on an operator is reducing. SOLUTION: An apparatus 10 for analyzing an electroencephalogram comprises an input unit 11 for inputting electroencephalogram data, a phase plane forming unit 12 for plotting a cerebral induction potential V and a time differential dV/dt in the input data on a V-dV/dt phase plane, a feature content calculating unit 13 for calculating an aspect ratio of a maximum value of an absolute value of the cerebral induction potential V to a maximum value of an absolute value of the time differential dV/dt as a feature content representing a relation between the potential V and the differential dV/dt, a judging unit 14 for judging the presence or absence of a psychoneurotic disease according to whether the calculated aspect ratio falls within a range between the minimum value and the maximum value of a standard value relating to the aspect ratio or not, a print controller 15 for outputting a judged result and a display unit 16. Thus, if the electroencephalogram is input, the presence or absence of a psychoneurotic disease is automatically judged, and the judged result is output.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to an electroencephalogram analysis apparatus, an electroencephalogram analysis method, and an electroencephalogram analysis program for automatically analyzing the presence or absence of a neuropsychiatric disease such as schizophrenia, manic depression, and epilepsy, using electroencephalogram data. And a computer-readable recording medium.

[0002]

2. Description of the Related Art Conventionally, the presence or absence of a neuropsychiatric disease such as schizophrenia, manic depression, epilepsy, etc. has been obtained by collecting electroencephalographic data of a subject and obtaining time-series electroencephalographic data. After being graphed and output, a skilled doctor visually grasps the electroencephalogram data of the subject and makes a judgment based on past experience and knowledge.

However, in such a determination, the determination result varies depending on the subjectivity of the doctor who makes the determination, or the work can be performed only by a skilled doctor having advanced knowledge and experience. Was there.

On the other hand, for example, in the case of determining whether or not an epilepsy is afflicted, electroencephalogram data is continuously collected for a long time (for example, 24 hours) because the subject does not know when the seizure will occur. The data needs to be analyzed. Therefore, it was necessary to manually analyze a very large amount of EEG data.

The present invention has been made to solve the above-mentioned problems, and it is possible to objectively determine the presence or absence of a neuropsychiatric disease by a simple method without the need for a skilled doctor while reducing the burden on the operator. An object of the present invention is to provide an electroencephalogram analysis apparatus, an electroencephalogram analysis method, an electroencephalogram analysis program, and a computer-readable recording medium that can be determined.

[0006]

In order to achieve the above object, an electroencephalogram analysis apparatus according to the present invention comprises an input means for inputting electroencephalogram data and a cerebral evoked potential V in the electroencephalogram data.
Based on the feature quantity calculated by the feature quantity calculation means and the standard value relating to the feature quantity, and a standard value relating to the feature quantity. It is characterized in that it has a judging means for judging the presence or absence of a disease, and an output means for outputting a judgment result by the judging means.

Further, the electroencephalogram analysis method according to the present invention is characterized in that an input step of inputting electroencephalogram data and a calculation of a predetermined feature quantity representing a relationship between the cerebral evoked potential V and the time differential dV / dt in the electroencephalogram data. Amount calculation step, a determination step of determining the presence or absence of a neuropsychiatric disease based on the characteristic amount calculated by the characteristic amount calculation means and a standard value relating to the characteristic amount, and a determination result by the determination means is output. And an output step.

Further, the electroencephalogram analysis program according to the present invention is characterized in that an input step of inputting electroencephalogram data and a predetermined feature quantity representing a relationship between the cerebral evoked potential V and the time differential dV / dt in the electroencephalogram data are calculated. Based on the feature amount calculated by the feature amount calculating means and the standard value relating to the feature amount, a determination step of determining the presence or absence of a neuropsychiatric disease, and a determination result of the determining means is output. And outputting the output step to a computer.

By the way, the electroencephalogram analysis apparatus, the electroencephalogram analysis method, and the electroencephalogram analysis program according to the present invention are based on the same technical idea (invention). The invention is regarded as an apparatus and a method, respectively. What I captured,
It is a program. The computer-readable recording medium according to the present invention can be regarded as a computer-readable recording medium in which the brain wave analysis program according to the present invention is recorded.

Therefore, the problem solving means by the electroencephalogram analysis apparatus according to the present invention will be described below, but the problem solving means for the electroencephalogram analysis method and the electroencephalogram analysis program are also based on the same idea.

In the electroencephalogram analysis apparatus according to the present invention, when the electroencephalogram data is input by the input means, the feature quantity calculation means
Cerebral evoked potential V and time derivative dV / d in EEG data
A predetermined feature amount representing the relationship with t is calculated.

Here, the characteristic amount calculating means calculates, for example, the ratio between the cerebral evoked potential V and the time derivative dV / dt as the characteristic amount. More specifically, the ratio may be a ratio between the maximum absolute value of the cerebral evoked potential V and the maximum absolute value of the time derivative dV / dt, or may be the average of the absolute values of the cerebral evoked potential V. May be the ratio of the mean value of the absolute value of the time derivative dV / dt, or the ratio of the variance of the cerebral evoked potential V to the variance of the time derivative dV / dt. These can be calculated relatively easily from the brain wave data.

Then, the judging means judges the presence or absence of a neuropsychiatric disease based on the calculated characteristic amount and the standard value relating to the characteristic amount. Here, for example, when the calculated feature amount is within a predetermined range in which it should be determined that there is no neuropsychiatric disease, in other words, the calculated feature amount is equal to or more than the minimum value of the standard value related to the feature amount. When it is less than the maximum value of the standard value, it can be determined that there is no neuropsychiatric disease, and in other cases, it can be determined that there is neuropsychiatric disease.

Further, the output means outputs the judgment result. For example, the determination result may be displayed on the display device, may be printed out on paper by the printing device, or may be output by voice from the speaker.

As described above, the presence or absence of a neuropsychiatric disease is automatically determined, and the determination result is output.
The operator can easily obtain the determination result without performing a work requiring skill. As described above, according to the present invention, it is possible to objectively determine the presence or absence of a neuropsychiatric disease by a simple method without requiring a skilled doctor while reducing the burden on the operator.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows an electroencephalogram analysis apparatus 1 according to this embodiment.
It is a functional block diagram showing the structure of 0. As shown in FIG. 1, the electroencephalogram analysis apparatus 10 includes an input unit 11 for inputting electroencephalogram data and a cerebral evoked potential V and time differential dV / dt in the input electroencephalogram data as V-dV / dt phase. The phase plane forming unit 12 plotted on a plane and a predetermined feature amount representing the relationship between the cerebral evoked potential V and the time differential dV / dt in the electroencephalogram data are the maximum absolute value of the cerebral evoked potential V and the time differential dV. The ratio of the absolute value of / dt to the maximum value (since this corresponds to the aspect ratio on the V-dV / dt phase plane,
Hereinafter, simply referred to as "aspect ratio". ), And a determination unit 14 for determining the presence or absence of a neuropsychiatric disease depending on whether the calculated aspect ratio is between the minimum value and the maximum value of the standard value relating to the aspect ratio. ,
The print control unit 15 prints out the determination result, the display unit 16 displays the determination result, the V-dV / dt phase plane, and the like, and the memory 18 for storing the data such as the determination result. There is.

Of the above functional blocks, the phase plane forming unit 12, the feature amount calculating unit 13, and the determining unit 14 are configured by a CPU in terms of hardware.

Next, the electroencephalogram analysis processing executed by the electroencephalogram analysis apparatus 10 will be described with reference to the flowchart of FIG.

First, in step S201 of FIG. 2, the electroencephalogram data of the subject is input by the input unit 11, and in the next step S202, the cerebral evoked potential V and the time derivative of the electroencephalogram data input by the phase plane forming unit 12 are input.
dV / dt is plotted on the V-dV / dt phase plane to form the V-dV / dt phase plane. For example, in step S201,
V-dV / d obtained by inputting time-series EEG data in a predetermined region of the subject's brain as shown in FIG. 3 and plotting EEG loci as shown in FIGS. 4 and 5 in step S202.
A t-phase plane is formed. Figure 4 shows the EEG locus of a healthy person.
FIG. 5 shows an electroencephalogram trajectory of an epileptic patient. The formed V-dV / dt phase plane may be displayed on the display unit 16 if necessary.
Can be displayed.

Then, in step S203, the feature amount calculation unit 13 sets the maximum absolute value of the cerebral evoked potential V as a predetermined feature amount representing the relationship between the cerebral evoked potential V in the electroencephalogram data and the time derivative dV / dt. And time derivative dV /
The ratio (aspect ratio) of the absolute value of dt to the maximum value is calculated.

At this time, V in the V-dV / dt phase plane
A set of intersection of the axis and the electroencephalographic locus [V _0], the set of intersections of the dV / dt axis electroencephalographic locus as [dt / dV _0], dV in [dt / dV _0]
The aspect ratio is calculated by dividing the maximum / dt value | dV / dt ₀ | _max by the maximum absolute value | V ₀ | _max of the V values in [V ₀ ]. FIG. 6 shows the aspect ratio of a patient with epilepsy and the aspect ratio of a healthy person calculated by the above method.

In the next step S204, the presence / absence of a neuropsychiatric disease is determined by the determination unit 14 based on whether or not the calculated aspect ratio is between the minimum value and the maximum value of the standard values related to the aspect ratio. To be done. That is, the calculated aspect ratio, if between the minimum and maximum of the standard value for the aspect ratio, it is determined that the subject has a neuropsychiatric disease, the calculated aspect ratio,
When the standard value is not between the minimum value and the maximum value, it is determined that the subject does not have a neuropsychiatric disease.

Then, in step S205, the determination result is displayed on the display section 16 and, if necessary, printed out by the print control section 15. The determination result is also stored in the memory 18.

By the electroencephalogram analysis processing as described above, the presence or absence of a neuropsychiatric disease is automatically determined, and the determination result is output. Therefore, the operator of the electroencephalogram analysis apparatus particularly performs the work requiring skill. Even without this, the determination result can be easily known. In this way, while reducing the burden on the operator,
The presence or absence of a neuropsychiatric disease can be objectively determined by a simple method even if not a skilled doctor.

Note that, in step S203 of FIG. 2, in addition to the calculation of the ratio between the maximum absolute value of the cerebral evoked potential V and the maximum absolute value of the time derivative dV / dt as the feature quantity,
Average absolute value of dV / dt value in [dt / dV ₀ ] | dV / dt ₀ |
_The value obtained by dividing the _mean by the absolute value of the V value in [V ₀ ] | V | _mean may be used as the feature quantity, or the variance for the dV / dt value in [dt / dV ₀ ] The value obtained by dividing by by the variance with respect to the V value in [V ₀ ] may be used as the feature amount.

Finally, an electroencephalogram analysis program according to the embodiment of the present invention and a computer-readable recording medium (hereinafter, simply referred to as a recording medium) recording the electroencephalogram analysis program will be described.

Here, the recording medium causes a reading device provided in a hardware resource of a computer to cause a change state of energy such as magnetism, light, and electricity in accordance with a description content of a program, The description content of the program can be transmitted to the reading device in the form of the corresponding signal. As such a recording medium, for example, a magnetic disk, an optical disk, a CD-ROM, a memory built in a computer, or the like is applicable.

FIG. 7 is a block diagram of a recording medium according to the embodiment of the present invention. The recording medium 100 has a program area 100a for recording a program, as shown in FIG. An electroencephalogram analysis program 102 is recorded in the program area 100a.

The electroencephalogram analysis program 102 is a program for executing the above-mentioned electroencephalogram analysis processing, and as shown in FIG. 7, a main module 102a for supervising the processing.
And an input module 102b for performing an electroencephalogram data input process, and a feature amount calculation module 10 that forms a V-dV / dt phase plane and calculates a feature amount on the V-dV / dt phase plane.
2c, a determination module 102d that determines the presence or absence of a neuropsychiatric disease based on the calculated feature amount and its standard value.
And an output module 102e that performs output processing of the determination result
And is configured.

FIG. 8 shows a computer (for example, a computer built in the electroencephalogram analysis apparatus 10 of FIG. 1) 10S for executing the electroencephalogram analysis program recorded in the recording medium 100.
2 is a system configuration diagram of FIG. The computer 10S includes a CPU 17 that controls execution of an electroencephalogram analysis program, a reading device 19 that can read the electroencephalogram analysis program recorded in the recording medium 100, a memory 18, a display unit 16 including a display, a ten-key pad, and the like. The input unit 11 and the print control unit 15 for controlling the print output of the determination result
It has and. Here, when the recording medium 100 is inserted into the reading device 19, the information recorded in the recording medium 100 becomes accessible from the reading device 19, and the electroencephalogram analysis recorded in the program area 100a of the recording medium 100 shown in FIG. The program 102 is the computer 10S
Becomes feasible by

As the reading device 19, a flexible disk drive device, a CD-ROM drive device, a magnetic tape drive device, or the like is used corresponding to the recording medium 100.

[0033]

As described above, according to the present invention,
It is possible to objectively determine the presence / absence of a neuropsychiatric disease by a simple method without requiring a skilled doctor while reducing the burden on the operator.

[Brief description of drawings]

FIG. 1 is a functional block diagram showing a configuration of an electroencephalogram analysis apparatus according to an embodiment of the invention.

FIG. 2 is a flow chart showing the contents of an electroencephalogram analysis process.

FIG. 3 is an example of electroencephalogram plotted in time series.

FIG. 4 is a brain wave locus of a healthy person plotted on a V-dV / dt phase plane.

FIG. 5 is an electroencephalographic locus of an epileptic patient plotted on the V-dV / dt phase plane.

FIG. 6 is a bar graph showing an example of calculating the aspect ratio for a healthy person and an epileptic patient.

FIG. 7 is a configuration diagram of a recording medium.

FIG. 8 is a system configuration diagram of a computer.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Electroencephalogram analysis apparatus, 10S ... Computer, 11 ... Input unit, 12 ... Phase plane forming unit, 13 ... Feature amount calculating unit, 1
4 ... Judgment part, 15 ... Print control part, 16 ... Display part, 17 ...
CPU, 18 ... Memory, 19 ... Reading device, 100 ...
Recording medium, 100a ... Program area, 102 ... EEG analysis program

Claims (8)

[Claims] 1. Input means for inputting electroencephalogram data, and cerebral evoked potential V and time differential dV in the electroencephalogram data.
The presence / absence of a neuropsychiatric disease is determined based on the feature amount calculation means for calculating a predetermined feature amount representing the relationship with / dt, and the feature amount calculated by the feature amount calculation means and the standard value relating to the feature amount. An electroencephalogram analysis apparatus comprising: a determination unit for determining; and an output unit for outputting a determination result by the determination unit. 2. The electroencephalogram analysis apparatus according to claim 1, wherein the characteristic amount calculation means calculates a ratio of a cerebral evoked potential V and a time derivative dV / dt as the characteristic amount. 3. The cerebral evoked potential V and time derivative dV / d
The electroencephalogram analysis apparatus according to claim 2, wherein the ratio to t is a ratio between the maximum absolute value of the cerebral evoked potential V and the maximum absolute value of the time derivative dV / dt. 4. The cerebral evoked potential V and time derivative dV / d
3. The electroencephalogram analysis apparatus according to claim 2, wherein the ratio to t is the ratio of the average value of the absolute values of the cerebral evoked potential V and the average value of the absolute values of the time derivative dV / dt. 5. The cerebral evoked potential V and time derivative dV / d
The ratio with t is the variance of the cerebral evoked potential V and the time derivative d.
The electroencephalogram analysis apparatus according to claim 2, wherein the ratio is a ratio of the variance with respect to V / dt. 6. An input step of inputting EEG data, and a cerebral evoked potential V and a time derivative dV in the EEG data.
Based on the feature amount calculated by the feature amount calculating means and the standard value relating to the feature amount, the presence or absence of a neuropsychiatric disease is determined based on the feature amount calculating step of calculating a predetermined feature amount representing the relationship with / dt. An electroencephalogram analysis method comprising: a determination step of determining, and an output step of outputting a determination result by the determination means. 7. An input step of inputting electroencephalogram data, and a cerebral evoked potential V and a time derivative dV in the electroencephalogram data.
Based on the feature amount calculated by the feature amount calculating means and the standard value relating to the feature amount, the presence or absence of a neuropsychiatric disease is determined based on the feature amount calculating step of calculating a predetermined feature amount representing the relationship with / dt. An electroencephalogram analysis program for causing a computer to perform a determination step of determination and an output step of outputting a determination result by the determination means. 8. A computer-readable recording medium on which the electroencephalogram analysis program according to claim 7 is recorded.