JP2001128951A - Brain wave device and method for displaying right and left brain wave difference - Google Patents

Abstract

PROBLEM TO BE SOLVED: To numerically express a difference between right and left brain waves on a display screen. SOLUTION: Right and left brain wave data are sampled in designated sections and decomposed into frequency elements, the power value or potential of a frequency range of an intended band is added to the frequency element to calculate a difference A between right and left brain waves by equation (1). A=100×(VR-VL)/(VL+VR)... (1), wherein VL and VR are right and left values. The values obtained by equation (1) are plotted around the level zero value for every right and left electrode couple.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electroencephalogram apparatus and an electroencephalogram left / right difference display method, and more particularly to a method for quantitatively displaying an electroencephalogram left / right difference.

[0002]

2. Description of the Related Art Conventionally, when an electroencephalograph, an electroencephalogram analyzer, an electroencephalogram automatic diagnosis device, or the like (hereinafter referred to as an electroencephalogram device) is used to measure, record, display, analyze, or diagnose an electroencephalogram, which is a spontaneous fluctuation of the brain. The brain waves at 8 to 16 locations are simultaneously detected, and the recording and display of the brain waves are performed by continuously measuring the brain waves of the subject for 10 to 30 minutes. During this time, a stimulus is applied to the sensory organs, and asymmetry, phase shift,
Analysis, diagnosis, etc. are performed by looking at potentials, frequency components, appearance patterns, and the like. In diagnosis or examination of brain waves, the difference between left and right brain waves is regarded as important.

[0003] Various methods have been proposed for the location of the EEG electrode.
At present, the international 10-20 law is widely used.
Fig. 6 (A) shows the EEG waveform derived by the International 10-20 Law
And the time course of electrocardiograms and EEGs other than these EEGs
Marker signals that indicate the type of overrun or timer signal inductive
Shows an example of an electroencephalogram waveform recorded in the above.
Diagnosis and examination of the left and right difference of EEG,
I look at the difference between left and right by thinking. In FIG.
Extreme F: (Frontal: frontal lobe), C: (Centr
al: central head), T: (Temporal: temporal lobe),
P (Parietal: crown), O: (Occiprt
al: occipital) etc._P1, F_P2, F_Three, F _Four, C_Three,
C_Four, P_Three, P_Four, O₁, O_Two, F₇, F₈, T_Four, T
_Five, T₆, F _Z, C_Z, P_ZEEG signal from position etc. and 2
Electrocardiographic waveforms indicated by 5-26 and MARK1, MARK2
Are derived. F_P1, F_P2, F_Three, F
_FourOdd numbers in suffix numbers and signs such as
The even numbers indicate the electrode group attached to the right brain side of the left brain side
In addition, Z indicates the EEG derived from the electrode group placed on the crown.
ing.

Further, an electroencephalogram device having a topography means or a mapping means for interpolating other than the electrode device points based on an electroencephalogram or a dielectric potential derived from the scalp and displaying a two-dimensional image is widely used. In an electroencephalogram apparatus having such a topography means, when estimating a diseased part or the like based on a difference in a propagation state of a response to stimulation of the left and right brains, a multi-channel electroencephalogram signal is subjected to Fourier transform to obtain power values α, β Figure 6 shows the energy distribution (energy map), amplitude map, latency map, etc. for each frequency
It is displayed as shown in (B).

In the color topography display of FIG. 6B, R, Y, S, and B shown on the scalp 1 are pseudo-color displays such as red, yellow, sky blue, and blue, respectively, to show the operation and functional states of the respective parts, The left and right difference is displayed by mapping, and 2 indicates the electrode position arranged according to the international 10-20 method.

[0006]

In the above-described method of reading and analyzing the waveform of the left-right difference of the electroencephalogram by inspection on the electroencephalogram recording paper shown in FIG. 6B, the topography display method of FIG. 6B has an advantage that various states in the left and right brains can be grasped at a glance on the left and right brain positions as an intuitive image. Since there is a difference between the left and right amplitudes or not expressed numerically, an objective comparison using a database could not be performed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and numerically grasps the left-right difference of brain waves and makes it possible to create a database by making numerical data. It is an object of the present invention to obtain an electroencephalogram apparatus and an electroencephalogram left / right difference display method which have improved reliability in consideration of the variation by calculating and plotting the left / right difference of the electroencephalogram.

[0008]

According to the present invention, there is provided an electroencephalogram apparatus comprising: a parameter analyzing means for analyzing left and right parameter values from measured left and right electroencephalogram data for each predetermined section; and a left / right difference value between the left and right parameter values obtained by the parameter analyzing means. , And the left and right parameter differences obtained by the left and right parameter difference calculation means are plotted and displayed or recorded on the EEG data for each channel from the center of the graph to the left and right.

The left and right difference display method of the electroencephalogram according to the present invention analyzes the left and right parameter values from the measured left and right electroencephalogram data for each predetermined section, calculates the analyzed left and right parameter difference values, and calculates the left and right parameter difference values from the center of the graph. The brain wave data is plotted on the left and right for each channel, and is displayed or recorded.

According to the electroencephalogram apparatus and the electroencephalogram left / right difference display method of the present invention, the left and right parameter values can be grasped numerically and made into a database.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an electroencephalogram apparatus and a method for displaying a left-right difference between electroencephalograms according to the present invention will be described in detail. FIG. 1 is a flow chart showing one embodiment of the present invention, FIG. 2 is a system diagram and a program configuration diagram for explaining an electroencephalogram apparatus and a method for displaying a left-right difference between electroencephalograms, and FIGS. Is shown. Before explaining FIG. 1, FIGS. 2A and 2B show an electroencephalogram device according to the present embodiment and a microcomputer (hereinafter referred to as a CPU) having a built-in electroencephalography device.
Will be described.

In the system diagram of FIG. 2A, multi-channels (electrodes F _P1 , F _P2 , F ₃ , F ₄ピ ッ ク ア ッ プ) picked up from a plurality of electrodes 2 arranged on the scalp 1 of the subject. ) Is amplified by a plurality of amplifiers 4 corresponding to each channel via a line selector 3,
It is supplied to a digital converter (hereinafter referred to as ADC) 5.

The ADC 5 and the line selector 3 are controlled by the CPU 9, and the brain wave data digitally converted by the ADC 5 is recorded on the printer 6 and displayed on the display unit 7 such as a CRT. These recorded or displayed EEG data are CP
It is controlled by U9. The CPU 9 has a RAM 10 as a system memory, a ROM 11 for a work, and an operation unit 8 including a keyboard and the like.

The outline of the program configuration of this embodiment will be described with reference to FIG. The left and right brain wave signal data derived from the plurality of electrodes 2 disposed on the scalp 1 as described with reference to FIG. 6B are stored in the RAM 10 (hereinafter, referred to as the memory 10). In this EEG data left stored in the memory 10 the left and right brain wave data of an arbitrary section is incorporated to the inside CPU9 as the first step S ₁ in FIG. 2 (B) is sampled, fast Fourier transform (FFT), etc. A frequency analysis is performed and a predetermined parameter analysis is performed.

[0015] In CPU9 next second step S ₂ calculates the power value of a predetermined band for each section, and calculates a left-right difference value with a predetermined parameter difference calculating means, CRT as a third step S ₃ Is displayed on the display unit 7 or recorded on the printer 6 or the like.

An embodiment of an electroencephalogram apparatus and a method for displaying a left-right difference between electroencephalograms according to the present invention will be described below with reference to FIGS. 1 and 3 to 5.

The flow chart of FIG.
EEG data (F_P1, F_Three, C_Three, P _Three, O₁, O₇, T
_Three, T_FiveData derived from electrodes) and right EEG data (F
_P2, F_Four, C_Four, P_Four, O_Two, F₈, T_Four, T₆Electrode or
For example, a pair of left and right (F_P1,
F_P2) Is taken into the CPU 9 (first step).
ST₁).

Next, the left and right electroencephalogram data taken into the CPU 9 is divided into an arbitrary number of sections within the analysis section (second step ST ₂ ).

Next, the left and right electroencephalogram data in units of sections are decomposed into frequency elements by a fast Fourier transform (FFT) technique (third step ST ₃ ).

Next, a power value in a fine section of a frequency range corresponding to a target band component (for example, an α-wave or β-wave generation band) is calculated by adding a frequency element (fourth step ST ₄ ).

[0021] is also calculated total power value of the analysis segments selected in the next fifth step ST ₅ In the third step ST _3.

Sixth step ST₆Then, the left and right electrode pairs (F
_P1: F_P2), (F_Three: F_Four), (C _Three: C_Four),
(P_Three: P_Four), (O₁: O_Two), (F₇: F₈),
(T_Three, T_Four), (T_Five: T₆) By the following formula
A left-right difference value A is obtained. A = 100 × (V_R+ V_L) / (V_L+ V_R)%-(1) where V_L値 Left value, V_R‥‥ Right value As a result, the left / right difference value A becomes a positive value when the right value is large.
I will take it.

In the seventh step, the left-right difference value for each electrode pair is plotted on a scale with the center of the graph as zero, for example, as a small circle in units of divided sections as shown in FIG. Likewise it is recorded onto the recording sheet by the 8-step display or printer 6 in ST ₈ the left-right difference value of the total analysis interval to the CRT display unit 7 by plotting a large circle.

FIG. 3 shows the left-right difference of each of the α-electrode pairs in a trend display, wherein 12L and 12R shown on the vertical axis represent left-right electrode groups, and 13 represents the division of a unit section of the left-right electrode left-right difference. Reference numeral 14 denotes a plot point of a power left / right difference in a total analysis section within a predetermined band of the left / right electrode pair. According to such a display, the difference between the left and right sides can be grasped numerically and a database can be created. Further, as will be described later, the plot point of the left-right difference value is a display method capable of displaying the presence or absence of “variation”.

In this embodiment, a Y line and an R line are provided in accordance with the level of the horizontal axis. For example, in FIG.
The small circle and the large circle of the left and right difference value A plotted in the level range of -30 to -50 are displayed in yellow (Y), and the colors of 50 or more and -50 or more are displayed in red (R). By changing it, the plot points of the 16 portions are displayed by R and the 17 portions are displayed by Y, so that it is possible to have an alarm-like function for color coding.

FIG. 4 shows an example in which the total left / right difference value A for a plurality of bands is plotted. The total left / right difference can be grasped numerically at a glance with the addition of an alarm function. Of course, also in this case, the range of levels 30 to 50 is indicated by Y, and the level of 50 or more is indicated by R.

FIGS. 5 (A) and 5 (B) show that the subject has an artifact.
5 shows the left and right difference value A of the electroencephalogram data at rest without any
(C) and (D) show the case where there is an artifact at the time of eye opening.
FIG. 5 shows a similar trend display of this example.
For example, a pair of left and right electrodes (C) of (A) and (B)_Three,
C_Four) And a pair of left and right electrodes similar to those shown in FIGS.
(C_Three, C _Four) When comparing the left and right spot points
As shown in FIGS. 5A and 5B, FIG.
(B) Left and right of EEG electrode at rest without artifact
As for the difference, the “variation” of the plot points is small, and FIG.
If there is an artifact at the time of eye opening (D), EEG data
It is clear that there is "variation"
I know exactly. This is the difference between left and right in a short section and the total section
By calculating and plotting the left-right difference of
It is designed to be able to display the presence or absence,
EEG device and EEG that can enhance reliability
A left-right difference display method is obtained.

In the above embodiment, the case where the left and right electroencephalogram data are decomposed into frequency elements to obtain the frequency power has been described. However, the potential and other parameters that can be measured on the left and right are the same as those in the equation (1). It is obvious that the left-right difference may be calculated based on a calculation formula, and various changes can be made without departing from the gist of the present invention.

[0029]

According to the electroencephalogram apparatus and the electroencephalogram left / right difference display method of the present invention, the left / right difference of a parameter such as an electroencephalogram which can be measured left / right is quantified by the equation (1). It is possible to grasp in a direct viewing state, and it is possible to make this numerical data into a database. Also, "variation" occurs in the plot of the left-right difference depending on the measurement conditions. However, since the left-right difference in the short section and the left-right difference in the total section are calculated and plotted, the "dispersion" state can be viewed directly, and the left-right difference can be seen. "Variation" when recognizing
Can be viewed in view of the display screen, so that the reliability of the left-right difference data is improved. Further, since the color of the plot point is changed in accordance with the level of the left-right difference value, an effect that an alarm function is provided can be obtained.

[Brief description of the drawings]

FIG. 1 is a flowchart showing one embodiment of an electroencephalogram apparatus and a method for displaying a left-right difference between electroencephalograms according to the present invention.

FIG. 2 is a system diagram and a program configuration diagram of an electroencephalogram apparatus and an electroencephalogram left / right difference display method of the present invention.

FIG. 3 is an explanatory diagram of a display example according to the present invention.

FIG. 4 is an explanatory diagram of a plot example of a total left-right difference of a plurality of bands according to the present invention.

FIG. 5 is an explanatory diagram showing a display example of left and right electroencephalogram data under various conditions according to the present invention.

FIG. 6 is a diagram showing a conventional electroencephalogram recording waveform having a left-right difference and a topography.

[Explanation of symbols]

1 ‥‥ scalp, 2 ‥‥ electrode, 3 ‥‥ line selector, 7 ‥
{Display part, 9} CPU, 10} RAM (memory)

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4C027 AA03 EE03 FF01 FF03 GG01 GG03 GG11 HH02 HH03 HH06 HH11 HH13 KK03 KK05

Claims (4)

[Claims] 1. Parameter analysis means for analyzing left and right parameter values from measured left and right electroencephalogram data for each predetermined section, left and right parameter difference calculation means for calculating left and right parameter values obtained by the parameter analysis means, An electroencephalogram apparatus characterized in that the electroencephalogram data obtained by plotting the left and right parameter differences obtained by the left and right parameter difference calculation means from the center of the graph to the left and right for each channel is displayed or recorded. 2. Analyzing left and right parameter values from the measured left and right brain wave data for each predetermined section, calculating the analyzed left and right parameter difference values, and converting the left and right parameter difference values to the left and right from the graph center for each channel. A left-right difference display method of an electroencephalogram characterized by plotting, displaying or recording. 3. The analysis of the left and right parameter values is performed by analyzing the left and right parameter values V _R analyzed into frequency power or potential power.
And _{V L, 100 × (V R} -V L) / (V L + V R)
3. The method according to claim 2, wherein the left and right parameter difference values are calculated as a percentage and plotted in sections and total units and displayed on the display means or recorded on the recording means. 4. The electroencephalogram according to claim 2, wherein a level of the parameter difference value is set, and the color of the plot point is changed and displayed or recorded. Left and right difference display method.