Method and system for the evaluation and visual display of abnormal electromagnetic physiological activity of the brain and the heart

US 5,282,474 A
Filed: 11/08/1991
Issued: 02/01/1994
Est. Priority Date: 11/09/1990
Status: Expired due to Term

First Claim

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1. A method for the evaluation and visual display of abnormal electromagnetic physiological data of the brain and the heart, said method including the steps of:

a) Positioning a set of electrodes and magnetic sensors and detecting electromagnetic physiological activity of a patient in the form of electromagnetic data signals selected from the group consisting of electroencephalogram (EEG), magnetoencephalogram (MEG), brain evoked response (ER), electrocardiogram (EKG), and magnetocardiogram (MKG) data signals;

b) Amplifying the electromagnetic signals detected at each electrode and magnetic sensor;

c) Obtaining on-line digital spatio-temporal signals, consisting of said EEG, MEG, ER, EKG, and MKG signals, by connecting analog-digital converters to each amplifier, and digitizing all data as it is gathered;

d) Obtaining sets of said spatio-temporal signals for the patient, and computing coefficients of expansion of the signals in a spatio-temporal functional basis defined by a tensorial product of selected functional bases for spatial and temporal domains,;

e) Computing estimates of parameters determined by statistical parametric models for probabilistic moments of said coefficients for a patient;

f) Automatically constructing summarized topographic maps by a process of diagnostically useful summarization of information contained in said sets of signals or probabilistic moments corresponding to different instants or frequencies, and automatically constructing summarized curves by a process of summarization of the information contained in said sets of signals or probabilistic moments corresponding to different electrodes and magnetic sensors;

g) Computing multivariate topographic maps and curves based on a comparison of said summarized topographic maps and curves with their means, standard deviations and correlations in stored normative data bases from normal subjects;

h) Visually displaying said multivariate topographic maps and curves in a diagnostically useful color-coded probability scale.

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Abstract

A method and system for the evaluation and visual display of abnormal electromagnetic physiological activity of the brain and the heart utilizes a set of bioelectric amplifiers and a computer based system for the recording and analog to digital conversion of human electrophysiological signals. The signals collected are expanded in selected spatio-temporal functional bases, and parametric models are used for summarizing the statistical properties of the coefficients. Multivariate topographic maps and curves are computed based on the comparison of the estimated parameters for a patient and the regression equations for the parameters calculated from a normative database. The multivariate maps and curves are visually displayed in a diagnostically useful color-coded probability scale.

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9 Claims

1. A method for the evaluation and visual display of abnormal electromagnetic physiological data of the brain and the heart, said method including the steps of:
- a) Positioning a set of electrodes and magnetic sensors and detecting electromagnetic physiological activity of a patient in the form of electromagnetic data signals selected from the group consisting of electroencephalogram (EEG), magnetoencephalogram (MEG), brain evoked response (ER), electrocardiogram (EKG), and magnetocardiogram (MKG) data signals;
  
  b) Amplifying the electromagnetic signals detected at each electrode and magnetic sensor;
  
  c) Obtaining on-line digital spatio-temporal signals, consisting of said EEG, MEG, ER, EKG, and MKG signals, by connecting analog-digital converters to each amplifier, and digitizing all data as it is gathered;
  
  d) Obtaining sets of said spatio-temporal signals for the patient, and computing coefficients of expansion of the signals in a spatio-temporal functional basis defined by a tensorial product of selected functional bases for spatial and temporal domains,;
  
  e) Computing estimates of parameters determined by statistical parametric models for probabilistic moments of said coefficients for a patient;
  
  f) Automatically constructing summarized topographic maps by a process of diagnostically useful summarization of information contained in said sets of signals or probabilistic moments corresponding to different instants or frequencies, and automatically constructing summarized curves by a process of summarization of the information contained in said sets of signals or probabilistic moments corresponding to different electrodes and magnetic sensors;
  
  g) Computing multivariate topographic maps and curves based on a comparison of said summarized topographic maps and curves with their means, standard deviations and correlations in stored normative data bases from normal subjects;
  
  h) Visually displaying said multivariate topographic maps and curves in a diagnostically useful color-coded probability scale.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A method as claimed in claim 1 wherein the functional basis for the temporal domain is a trigonometric basis and said parameters are variances of Fourier coefficients for each electrode and frequency, said method further comprising the steps of estimating said variances by a sample spectrum or periodogram;
    - computing normative mean values, standard deviations and correlations of the periodogram by a non-linear and heteroscedastic regression analysis of a log-periodogram as a function of frequency and age for each electrode, using a stored normative data base of normal subjects; and
      
      performing said regression analysis based upon mean and variance regression functions constructed by the tensorial product of a polynomial basis for the age and a spline basis for the frequency domain.
  - 3. A method as claimed in claim 1 further comprising the step of constructing said functional basis by computing a tensorial product of a trigonometric basis a time domain and a reproducing kernel basis determined by positions of the set of electrodes and a norm of functional smoothness for a spatial domain;
    - and wherein said parameters are the parameters of a multivariate autoregressive time series model for a vector of coefficients of the expansion in said spatial functional basis.
  - 4. A method as claimed in claim 1 further comprising the step of computing said parametric model for said probabilistic moments based upon a multiple dipole source model.
  - 5. A method as claimed in claim 1 further comprising the step of computing the spatio-temporal basis as a wavelet basis in order to account for nonstationarities and for multiresolution representation of said sets of signals.
  - 6. A method as claimed in claim 1 further comprising the step of obtaining the multivariate topographic maps and curves of a given patient by computing a residual of each value of the patient'"'"'s summarized map or curve with respect to its expected value, given remaining values of the patient, in accordance with a probability distribution of a normative population stored in a computer memory.
  - 7. A method as claimed in claim 1 further comprising the step of obtaining the multivariate topographic maps and curves of a given patient by computing a vector which points in a direction of maximal statistical deviation of the patient'"'"'s summarized map or curve from the map or curve representative of a normative population.
  - 8. A method as claimed in claim 1 wherein the step of visually displaying said multivariate topographic maps and curves is carried out using the probability values defined by distribution functions of a maximum and minimum of said maps and curves stored in a normative database, and the representation of these probability values by a color-coded scale.

9. A system for the evaluation and visual display of abnormal electromagnetic physiological data of the brain and the heart that comprises:
- a) A set of electrodes and/or magnetic sensors adapted to be positioned relative to the scalp or torso of a patient in order to detect electromagnetic physiological activity by detecting electromagnetic signals selected from the group consisting of the following signals;
  
  electroencephalogram (EEG), magnetoencephalogram (MEG), brain evoked response (ER), electrocardiogram (EKG), and magnetocardiogram (MKG);
  
  b) Means for amplifying said electromagnetic signals to obtain amplified electromagnetic signals;
  
  c) Means for analog-to-digital conversion of the amplified electromagnetic signals to obtain digital spatio-temporal signals, representative of the aforementioned EEG, MEG, EKG, and MKG;
  
  d) Means for storing sets of said spatio-temporal signals for the patient, and for computing coefficients of expansion in a spatio-temporal functional basis defined by a tensorial product of selected functional bases for spatial and temporal domains;
  
  e) Means for computing estimates of parameters determined by statistical parametric models for probabilistic moments of said coefficients for a patient;
  
  f) Means for automatic construction of summarized topographic maps by a process of diagnostically useful summarization of information contained in said sets of signals or probabilistic moments corresponding to different instants or frequencies, and automatic construction of summarized curves by a process of summarization of the information contained in a said sets of signals or probabilistic moments corresponding to different electrodes and magnetic sensors;
  
  g) Means for computing multivariate topographic maps and curves for a given patient based on a comparison of said summarized topographic maps and curves with their means, standard deviations and correlations in stored normative data bases from normal subjects;
  
  h) Means for visually displaying said multivariate topographic maps and curves in a diagnostically useful color-coded probability scale.

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Current Assignee
Centro de Neurociencias de Cuba (CNEURO)
Original Assignee
Centro de Neurociencias de Cuba (CNEURO)
Inventors
Bayard, Jorge B., Garcia, Lidice G., Jimenez Sobrino, Juan C., Lirio, Rolando B., Valdes Sosa, Pedro A., Blaquier, Livia N., Pascual Marqui, Roberto D.
Primary Examiner(s)
Kamm, William E.
Assistant Examiner(s)
Jastrzab, Jeffrey R.

Application Number

US07/790,383
Time in Patent Office

816 Days
Field of Search

128/670, 128/696, 128/731
US Class Current

600/483
CPC Class Codes

G16H 10/20   for electronic clinical tri...

G16H 15/00   ICT specially adapted for m...

G16H 40/63   for local operation

G16H 50/50   for simulation or modelling...

Method and system for the evaluation and visual display of abnormal electromagnetic physiological activity of the brain and the heart

First Claim

4 Assignments

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Abstract

93 Citations

9 Claims

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Method and system for the evaluation and visual display of abnormal electromagnetic physiological activity of the brain and the heart

First Claim

4 Assignments

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Abstract

93 Citations

9 Claims

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