Title :
Quantitative analysis of T-wave amplitude during parabolic flight
Author :
Caiani, EG ; Vimercati, C. ; Tu, TD ; Capderou, A. ; Cerutti, S. ; Vaida, P.
Author_Institution :
Dipt. di Bioingegneria, Politec. di Milano, Milan
Abstract :
Our goal was to develop a method for the analysis of T-wave maximum amplitude (Tmax), to quantify its changes with gravity (Gz) during parabolic flight, and test the hypothesis that microgravity (0 Gz) induces alteration in ventricular repolarization. ECG was obtained in 12 normal male subjects in upright position during consecutive parabolas with lower-body negative pressure (LBNP) randomly activated at 0 Gz. The X, Y and Z leads were used to compute vector V. Each QQ was classified according to Gz (1 Gz, 1.8 GZ, 0 Gz, 1 Gz recovery) at its time occurrence and used to obtain a template, from which Tmax was computed. At 0 Gz, Tmax showed a significant increase (15%+4%), compared to 1 Gz. With LBNP, the Tmax increase at 0 Gz was only 8%+4%. At 1 Gz recovery, Tmax was increased by 5%+2%. Microgravity influences ventricular repolarization by increasing T wave amplitude.
Keywords :
aerospace biophysics; diseases; electrocardiography; zero gravity experiments; ECG; T-wave amplitude; lower-body negative pressure; microgravity; parabolic flight; quantitative analysis; ventricular repolarization; Cardiology; Dispersion; Electrocardiography; Gravity; Heart rate interval; Mathematical model; Performance analysis; Rhythm; Signal analysis; Space missions;
Conference_Titel :
Computers in Cardiology, 2006
Conference_Location :
Valencia
Print_ISBN :
978-1-4244-2532-7
