BACKGROUND: Effective chest compressions during prolonged ventricular fibrillation (VF) have been shown to increase the chances of successful defibrillation to a rhythm associated with a sustainable cardiac output. There is currently no effective method of recording the degree of antegrade coronary artery flow during chest compression in VF. OBJECTIVE: This study sought to quantify the relationship between the antegrade coronary flow and the characteristics of human VF using near real-time wavelet-based electrocardiographic markers. METHODS: VF experiments were conducted in 8 isolated human hearts. The Langendorff perfusion enabled different flow rates (perfusion) during VF, which allowed for the simulation of chest compression with different efficacies. After the initiation of VF, the hearts were maintained in ischemia (no flow) for 3 minutes, followed by a 2-minute reperfusion and defibrillation. The experiments were repeated at flows of 0%, 30%, and 100% of baseline perfusion, and volume-conducted surface electrograms were recorded and analyzed using continuous wavelet transform in 5-second frames. RESULTS: Near real-time wavelet features were derived that demonstrated significant differences in the multicomponent nature of VF signals and predicted perfusion rate characteristics for different flow rates (i.e., 0%, 30%, and 100%; P < .0006). A pattern classifier was trained using the feature values from 5 hearts, and the flow rates for 3 additional hearts were predicted with an accuracy of 90%. CONCLUSION: VF electrogram characteristics as measured by wavelet analysis relate to antegrade coronary flow rate during VF. These findings suggest that chest compression efficacy of physiological importance could be monitored using near real-time wavelet analysis.
BACKGROUND: Effective chest compressions during prolonged ventricular fibrillation (VF) have been shown to increase the chances of successful defibrillation to a rhythm associated with a sustainable cardiac output. There is currently no effective method of recording the degree of antegrade coronary artery flow during chest compression in VF. OBJECTIVE: This study sought to quantify the relationship between the antegrade coronary flow and the characteristics of humanVF using near real-time wavelet-based electrocardiographic markers. METHODS:VF experiments were conducted in 8 isolated human hearts. The Langendorff perfusion enabled different flow rates (perfusion) during VF, which allowed for the simulation of chest compression with different efficacies. After the initiation of VF, the hearts were maintained in ischemia (no flow) for 3 minutes, followed by a 2-minute reperfusion and defibrillation. The experiments were repeated at flows of 0%, 30%, and 100% of baseline perfusion, and volume-conducted surface electrograms were recorded and analyzed using continuous wavelet transform in 5-second frames. RESULTS: Near real-time wavelet features were derived that demonstrated significant differences in the multicomponent nature of VF signals and predicted perfusion rate characteristics for different flow rates (i.e., 0%, 30%, and 100%; P < .0006). A pattern classifier was trained using the feature values from 5 hearts, and the flow rates for 3 additional hearts were predicted with an accuracy of 90%. CONCLUSION:VF electrogram characteristics as measured by wavelet analysis relate to antegrade coronary flow rate during VF. These findings suggest that chest compression efficacy of physiological importance could be monitored using near real-time wavelet analysis.
Authors: K Nair; T Farid; S Masse; K Umapathy; S Watkins; K Poku; J Asta; M Kusha; E Sevaptsidis; J Jacob; J S Floras; K Nanthakumar Journal: Am J Physiol Heart Circ Physiol Date: 2012-01-20 Impact factor: 4.733
Authors: David Filgueiras-Rama; Conrado J Calvo; Óscar Salvador-Montañés; Rosalía Cádenas; Jose Ruiz-Cantador; Eduardo Armada; Juan Ramón Rey; J L Merino; Rafael Peinado; Nicasio Pérez-Castellano; Julián Pérez-Villacastín; Jorge G Quintanilla; Santiago Jiménez; Francisco Castells; Francisco J Chorro; J L López-Sendón; Omer Berenfeld; José Jalife; Esteban López de Sá; José Millet Journal: Int J Cardiol Date: 2015-03-14 Impact factor: 4.164