The Impact of Torso Signal Processing on Noninvasive Electrocardiographic Imaging Reconstructions
Investigators: Bear L.R., Serinagaoglu Dogrusoz Y., Good W., Svehlikova J., Coll_Font J., van Dam E., MacLeod R.
Within the consortium for electrocardiographic imaging, we investigated the effect of processing measured ECG signals on the chest surface on the inverse reconstruction of epicardial potentials and activation maps on the heart. Data were obtained from 4 animal experiments in the Langerdorf system, where surface potential maps on the chest and epicardium during cardiac pacing from a known catheter position were measured simultaneously. 7 high frequency noise (HF) removal methods, 5 zero line removal (BDR) methods and combinations thereof were applied to the signals from the BSPM. For all processed data, epicardial potentials were calculated by an inverse problem using Tikhonov solution regularization. The inverse task was calculated for each heart cycle individually (14-31 cycles in one set), as well as for the average cycle. The results showed that the BDR method and the combination of BDR + HF methods had a positive effect on the reconstruction of epicardial signals. The HF method alone did not significantly affect the results. The smallest error in the inverse localization of the stimulation catheter was achieved using the averaged signals (SA) (Fig.).
Related projects:
- VEGA 2/0125/19 “Meranie a modelovanie elektrického poľa srdca na neinvazívnu identifikáciu a interpretáciu štrukturálnych zmien komorového myokardu vedúcich k ventrikulárnym arytmiám.”
- APVV-14-0875 “Neinvazívna lokalizácia ektopických arytmií srdcových komôr pomocou EKG mapovania a jej využitie pre účely kauzálnej liečby.”
Publications:
- Bear LR, Serinagaoglu Y, Good WW, Svehlikova J, Coll-Font J, van Dam E, et al. The Impact of Torso Signal Processing on Noninvasive Electrocardiographic Imaging Reconstructions. IEEE Trans Biomed Eng 2020;00:1–1. (2020: 4.538 – IF, Q2 – JCR, 1.148 – SJR, Q1 – SJR). ISSN 0018-9294. Dostupné na: https://doi.org/10.1109/TBME.2020.3003465 Typ: ADCA
Stimulation catheter inverse localization error for selected signal processing results by HFR, BDR methods, their combinations and using SA.