DocumentCode
871898
Title
On Computing Dominant Frequency From Bipolar Intracardiac Electrograms
Author
Fischer, Gerald ; Stühlinger, Markus Ch ; Nowak, Claudia-N ; Wieser, Leonhard ; Tilg, Bernhard ; Hintringer, Florian
Author_Institution
Med. Informatics & Technol., Univ. for Health Sci., Hall In Tyrol
Volume
54
Issue
1
fYear
2007
Firstpage
165
Lastpage
169
Abstract
Dominant frequency (DF) computed from action potentials is a key parameter for investigating atrial fibrillation in animal studies and computer models. A recent clinical trial reported consistent results computing DF from 30 Hz to 400 Hz bandpass filtered bipolar electrograms in humans. The DF (<15 Hz and, thus, filtered out) was recovered by rectifying the signal, while the theoretical background of this approach was left uncommented. It is the focus of this paper to provide this background by a Fourier analysis. We demonstrate that it is mainly the timing of the narrow deflections (local activation at the catheter tip) which contribute to the DF peak in the frequency spectrum. Due to the typical signal morphology pronounced harmonic peaks occur in the spectrum. This is a disadvantage when computing the regularity index (RI) as a parameter for local organization and signal quality. It is demonstrated for synthetical and patient data that at low DF the RI is far below the optimal value one even for high underlying organization and good signal quality. The insight obtained promotes the development of better measures for organization. The finding that mainly timing of activation contributes to DF might promote the development of powerful realtime signal processing tools for computing DF
Keywords
Fourier transforms; band-pass filters; bioelectric potentials; electrocardiography; medical signal processing; 30 to 400 Hz; Fourier analysis; action potentials; atrial fibrillation; bandpass filtered bipolar electrograms; bipolar intracardiac electrograms; dominant frequency; regularity index; signal processing tools; signal recovery; signal rectification; Animals; Atrial fibrillation; Band pass filters; Catheters; Clinical trials; Frequency; Humans; Morphology; Power harmonic filters; Timing; Atrial fibrillation; Fourier transform; Algorithms; Arrhythmias, Cardiac; Diagnosis, Computer-Assisted; Electrocardiography; Female; Fourier Analysis; Heart Rate; Humans; Middle Aged; Reproducibility of Results; Sensitivity and Specificity;
fLanguage
English
Journal_Title
Biomedical Engineering, IEEE Transactions on
Publisher
ieee
ISSN
0018-9294
Type
jour
DOI
10.1109/TBME.2006.883739
Filename
4034031
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