BioMedical Engineering OnLine | |
Improved frequency resolution for characterization of complex fractionated atrial electrograms | |
Edward J Ciaccio1  Angelo B Biviano2  William Whang2  Hasan Garan2  | |
[1] Columbia University, Harkness Pavilion 936, 180 Fort Washington Avenue, New York, NY, 10032, USA | |
[2] Department of Medicine, Division of Cardiology, Columbia University Medical Center, New York, NY, USA | |
关键词: Spectral resolution; Spectral estimation; Fourier analysis; Ensemble averaging; Atrial fibrillation; | |
Others : 798105 DOI : 10.1186/1475-925X-11-17 |
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received in 2012-01-13, accepted in 2012-03-13, 发布年份 2012 | |
【 摘 要 】
Background
The dominant frequency of the Fourier power spectrum is useful to analyze complex fractionated atrial electrograms (CFAE), but spectral resolution is limited and uniform from DC to the Nyquist frequency. Herein the spectral resolution of a recently described and relatively new spectral estimation technique is compared to the Fourier radix-2 implementation.
Methods
In 10 paroxysmal and 10 persistent atrial fibrillation patients, 216 CFAE were acquired from the pulmonary vein ostia and left atrial free wall (977 Hz sampling rate, 8192 sample points, 8.4 s duration). With these parameter values, in the physiologic range of 3–10 Hz, two frequency components can theoretically be resolved at 0.24 Hz using Fourier analysis and at 0.10 Hz on average using the new technique. For testing, two closely-spaced periodic components were synthesized from two different CFAE recordings, and combined with two other CFAE recordings magnified 2×, that served as interference signals. The ability to resolve synthesized frequency components in the range 3–4 Hz, 4–5 Hz, …, 9–10 Hz was determined for 15 trials each (105 total).
Results
With the added interference, frequency resolution averaged 0.29 ± 0.22 Hz for Fourier versus 0.16 ± 0.10 Hz for the new method (p < 0.001). The misalignment error of spectral peaks versus actual values was ±0.023 Hz for Fourier and ±0.009 Hz for the new method (p < 0.001). One or both synthesized peaks were lost in the noise floor 13/105 times using Fourier versus 4/105 times using the new method.
Conclusions
Within the physiologically relevant frequency range for characterization of CFAE, the new method has approximately twice the spectral resolution of Fourier analysis, there is less error in estimating frequencies, and peaks appear more readily above the noise floor. Theoretically, when interference is not present, to resolve frequency components separated by 0.10 Hz using Fourier analysis would require an 18.2 s sequence duration, versus 8.4 s with the new method.
【 授权许可】
2012 Ciaccio et al.; licensee BioMed Central Ltd.
【 预 览 】
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