Spectrotemporal Mapping of High‐Resolution ECGs in Experimental Myocardial Infarction: Comparison with Time‐Domain Analysis and Epicardial Electrograms

Domain Analysis and Epicardial Electrograms. The study was undertaken to evaluate the relationship of signal‐averaged ECG (SA‐ECG) readings in the frequency domain (STM) and epicardial electrograms (EE) recorded before and after acute myocardial infarction (AMI) in pigs and to compare the changes with findings in timedomain analysis (TDA). In 20 pigs the left anterior descending artery (LAD) was ligated. Prior to ligation, a SA‐ECG was recorded (method of Simson) and bipolar electrodes were used to register EE in the areas supplied by the LAD and the circumflex artery (CIRC). Five minutes after LAD ligation, all measurements were repeated. Time‐domain parameters were QRS duration (QRS D) and the duration of the signal below 30 μV (LAS 30). Beginning at a point of 20 ms before the QRS end, the frequency spectra (0–200 Hz) of 25 segments of 80‐ms duration at the QRS end were analyzed. The volumes below the 25 curves were analyzed separately for 0–50 Hz, 51–100 Hz, 101–150 Hz, and 151–200 Hz. After AMI, five pigs died within 7 minutes. In 15 pigs, QRS D as well as LAS 30 lengthened significantly (P < 0.05; P < 0.001). Spectrotemporal mapping (STM) showed a significant decrease of the frequencies above 50 Hz (51–200 Hz) in the entire group and in the animals with late potentials (P < 0.05). EE of the LAD area were significantly prolonged (P < 0.01); this did not correlate with the changes in STM parameters. In pigs acute myocardial infarction causes a shift towards lower frequencies in the STM which most likely reflects the slowed depolarisation in the ischemic area.