Juan Ugarte scite author profile

There is evidence that rotors could be drivers that maintain atrial fibrillation. Complex fractionated atrial electrograms have been located in rotor tip areas. However, the concept of electrogram fractionation, defined using time intervals, is still controversial as a tool for locating target sites for ablation. We hypothesize that the fractionation phenomenon is better described using non-linear dynamic measures, such as approximate entropy, and that this tool could be used for locating the rotor tip. The aim of this work has been to determine the relationship between approximate entropy and fractionated electrograms, and to develop a new tool for rotor mapping based on fractionation levels. Two episodes of chronic atrial fibrillation were simulated in a 3D human atrial model, in which rotors were observed. Dynamic approximate entropy maps were calculated using unipolar electrogram signals generated over the whole surface of the 3D atrial model. In addition, we optimized the approximate entropy calculation using two real multi-center databases of fractionated electrogram signals, labeled in 4 levels of fractionation. We found that the values of approximate entropy and the levels of fractionation are positively correlated. This allows the dynamic approximate entropy maps to localize the tips from stable and meandering rotors. Furthermore, we assessed the optimized approximate entropy using bipolar electrograms generated over a vicinity enclosing a rotor, achieving rotor detection. Our results suggest that high approximate entropy values are able to detect a high level of fractionation and to locate rotor tips in simulated atrial fibrillation episodes. We suggest that dynamic approximate entropy maps could become a tool for atrial fibrillation rotor mapping.

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Early lung allograft function after retrograde and antegrade preservation

Varela¹,

Córdoba²,

Serrano-Fiz³

et al. 1997

The Journal of Thoracic and Cardiovascular Surgery

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Different techniques have been designed to provide adequate lung preservation by antegrade flushing of a preservation solution, generally modified Euro-Collins solution or University of Wisconsin solution , through the pulmonary artery (PA). Despite these pharmacologic advances, early allograft dysfunction remains a problem. An entirely new concept is retrograde instillation of the preservation solution through the left atrial appendage , with the PA used for outflow.This novel approach has been successfully employed in the laboratory 1-3 and for23 consecutive lung transplantation procedures. 4 The observations and direct implications derived from this limited experience constitute the basis for this report.

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Juan Ugarte

Pulmonary hydatidosis: surgical treatment and follow-up of 240 cases

RADIAL: A novel primary graft failure risk score in heart transplantation

Dynamic Approximate Entropy Electroanatomic Maps Detect Rotors in a Simulated Atrial Fibrillation Model

Early lung allograft function after retrograde and antegrade preservation

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