Apparatus for enhancing signals in ECGs artefacts

Surgery – Diagnostic testing – Cardiovascular

Reexamination Certificate

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C128S901000

Reexamination Certificate

active

06216031

ABSTRACT:

The present invention relates to an apparatus for enhancing signals in electrocardiograms (ECG) including artefacts. Artefacts occur in electrocardiograms in particular during ergometric testing such as on a bicycle ergometer and treadmill, and when registering long-term ECGS.
Artefacts occurring in ECGs can be subdivided into fixed frequency interferences and random disturbances, the latter in turn into the categories muscle trembling, movement artefacts and base-line wander.
For the removal of fixed frequency interferences such as power-line noise, various methods have become known:
For example, a power frequency compensation filter can be employed (cf JP 1-227 740 A (Abstract)). But it Is also possible to remove fixed frequency interferences under condition that in the signal there are epochs between the QRS complexes and epochs in the QRS complexes and that the frequency and the amplitude do not substantially change during these epochs (of U.S. Pat. No. 5,687,735). Finally base-line wander and power-line noise can be removed also by means of finite-impulse-response (FIR) band-pass filters.
At present random artefacts such as muscle trembling and movement artefacts are reduced by means of low-pass filters such as first-order filters with a cut-off frequency of 20 Hz. Low-pass filters of this type, however, have disadvantageous effects: They reduce in particular the amplitudes in the QRS complex so that these amplitudes cannot be correctly evaluated. But apart from the ST path also the R amplitude is of great significance in particular for judging ischaemiae.
Known methods for removing base-line wander are high-pass filtering on the one hand (of U.S. Periodical: IEEE Transactions on Biomedical Engineering, vol. BME-32, 1985, pp 1052-1060), and the spline method on the other hand (C. R. Meyer and H. N. Keiser: “Electrocardiogram baseline noise estimation and removel using cubic splines and state-space computation techniques”, Computers and Biomedical Research, vol. 10, pp 459 to 470, 1977).
A drawback of high-pass filters is the change of the ST path. The measured values of the ST path, e.g. the ST amplitude or the ST slope, are of utmost Importance for the judgment of ischaemiae and the diagnosis of coronary cardiopathy. The spline method causes an undesired delay of the ECG.
Further an apparatus for enhancing the signal-to-noise ratio of ECGs is known (U.S. Pat. No. 5,564,428).
In the known apparatus the signal ensemble is filtered by employing for different segments of the ECG each a filter having a different filter characteristic which is optimum for the respective ECG segment. Correlation and mean value formation are used to determine each the optimum filter coefficients.
Finally there is a method of reducing computations in pattern recognition for an arrhythmical analysis (DE 39 12 028 A1). This method can remove artefacts for quite a specific type of signal processing, namely the arrhythmical analysis. But it is not suited for removing artefacts from ECG curves provided for signal storage and signal reproduction.
For direct judgment of an ECG, an optimally short delay time in the filter unit is aimed at to enable quick recognition of a critical situation of a patient.
It is the object of the present invention to provide an apparatus for enhancing signals in an ECG adapted to reduce the occurrence of random artefacts during signal processing, storage and reproduction to a large extent without inadmissibly distorting the ECG itself or delaying it.
For accomplishing this object, the invention provides an apparatus for enhancing signals in ECGs including artefacts, said apparatus comprising
a mean value unit for continuously evaluating from an ECG signal the curve shape of a predetermined number of beats from the beginning of a QRS complex to the end of a T wave and for continuously forming therefrom a mean value beat,
a subtracting unit for subtracting the mean value beat from the ECG signal of an actual beat to obtain a residual signal,
a filter unit for subjecting the residual signal to high-low pass-filtering and for delaying it to obtain a filtered signal, and
an adding unit for adding the mean value beat to the filtered signal.
Thus in the apparatus under the present invention, during an ergometric test, e.g, on a treadmill, a mean value beat is continuously computed by mean value formation of e.g. sixteen preceding well correlating ECG cycles. Of course more cycles or leer cycles may be used as well for evaluation.
The thus obtained mean value beat is then subtracted from an ECG signal of an actual beat and the resulting residual signal is supplied to a filter unit for high-low pass filtering. Subsequently, the mean value beat is again added to the filtered residual signal at the place at which it had been subtracted.
By continuous actualization of the mean value beat, the biologically conditioned change of the QRS character is considered which, for example, can come about by increasing stress during the ergometric test. The mean value beat represents the actual ECG.
Subtraction of the mean value beat from the ECG signal of an actual beat and addition to the filtered residual signal are made in a correct sequence so that the mean value beat obtained e.g. from sixteen ECG cycles is subtracted each in sequence from the actual ECG signal and added to the actual filtered signal. But in doing so, merely the segment from the beginning of the QRS complex to the end of the T wave is used in an ECG cycle. In other words: The p-wave preceding the QRS complex is not considered for subtraction and accordingly not for subsequent addition. The reason therefor is an uncertain association of the P wave with the QRS complex, what applies in particular to supraventricular extrasystols (SES), artrial fibrillation and AV blocks of the second and third degree.
The p-waves thus are not subjected to signal enhancement by the apparatus under the present invention. The p-waves rather can be subjected e.g. to low-pass filtering with 10 Hz. Namely, as in a surface ECG the frequency content of the p-waves is low, the effect of a low-pass filter of 10 Hz on the p-waves can be accepted.
Also on the occurrence of ventricular extrasystols (VES), subtraction of the mean value beat is not made. The VES rather are subjected—similarly to the p-waves—to low-pass filtering with 10 Hz. Namely, as in a surface ECG the frequency content of the VES is reduced, the effect of low-pass filtering with 10 Hz on the VES can be accepted.
The ECG signal can be comprised of one or several derivations. Accordingly, also the mean value beat then is comprised of one or a plurality of derivations.
Also a plurality of different mean value beats can be processed by the apparatus under the present invention. The mean value unit then is capable of forming one or several mean value beats. The subtracting unit selects the best-fitting mean value beat and subtracts it from the actual beat. The adding unit then adds the mean value beat selected by the subtracting unit.
When several different mean value beats are processed, also ventricular extrasystols, the complexes of an intermittent leg block or pace-stimulated QRS complexes can form further mean value beats which are treated in the same way as the first mean value beat.
In Holter systems the ECG can be computed e.g. twice provided the complete ECG is stored in a memory. During the first run, the mean value beats can be formed while during the second run the mean value beats are subtracted from the ECG and added to the filtered residual signal.
As already mentioned above, it could be considered in principle to use conventional low-pass filters for artefact suppression, such as first-order filters with a cut-off frequency of 20 Hz. But low-pass filters of this type have disadvantageous effects: In particular, they reduce the amplitudes in the QRS complex so that these amplitudes cannot be correctly evaluated. But apart from the ST path also the R amplitude is of great significance especially for the judgment of ischaemiae.
For direct judgment of an ECG an optimally short del

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