Time Course of ECG Depolarization and Repolarization Changes during Ischemia in PTCA Recordings

E. Pueyo; J. García; G. Wagner; R. Bailón; L. Sörnmo; P. Laguna

doi:10.1055/s-0038-1633832

Methods of Information in Medicine, Table of Contents

Methods Inf Med 2004; 43(01): 43-46
DOI: 10.1055/s-0038-1633832

Original Article

Schattauer GmbH

Time Course of ECG Depolarization and Repolarization Changes during Ischemia in PTCA Recordings

E. Pueyo

¹Department of Electronic Engineering and Communications, University of Zaragoza, Zaragoza, Spain

,

J. García

¹Department of Electronic Engineering and Communications, University of Zaragoza, Zaragoza, Spain

,

G. Wagner

²Department of Medicine, Duke University Medical Centre, NC, USA

,

R. Bailón

¹Department of Electronic Engineering and Communications, University of Zaragoza, Zaragoza, Spain

,

L. Sörnmo

³Department of Applied Electronics, University of Lund, Sweden

,

P. Laguna

¹Department of Electronic Engineering and Communications, University of Zaragoza, Zaragoza, Spain

› Author Affiliations

Abstract

Summary

Objectives: In this work we studied the temporal evolution of changes in the electrocardiogram (ECG) as a consequence of the induced ischemia during prolonged coronary angioplasty, comparing the time course of indexes reflecting depolarization and those reflecting repolarization.

Methods: We considered both local (measured at specific points of the ECG) and global (obtained from the Karhunen-Loève transform) indexes. In particular, the evolution of Q, R and S wave amplitudes during ischemia was analyzed with respect to classical indexes such as ST level. As a measurement of sensitivity we used an Ischemic Changes Sensor (ICS), which reflects the capacity of an index to detect changes in the ECG.

Results: The results showed that, in leads with low-amplitude ST-T complexes, the S wave amplitude was more sensitive in detecting ischemia than was the commonly used index ST60. It was found that in such leads the S wave amplitude initially exhibited a delayed response to ischemia when compared to ST60, but its performance was better from the second minute of occlusion. The global indexes describing the ST-T complex were, in terms of the ICS, superior to the S wave amplitude for ischemia detection.

Conclusions: Ischemic ECG changes occur both at repolarization and depolarization, with alterations in the depolarization period appearing later in time. Local indexes are less sensitive to ischemia than global ones.

Keywords

Ischemia - angioplasty - QRS amplitudes - ST value

Full Text

References

References
1 Kornreich F, Macleod RS, Dzavik V, Selvester RH, Kornreich AM, Stoupel E, de Almeida J, Walker D, Montague TJ. QRST changes during and after percutaneous transluminal coronary angioplasty. J Electrocardiol 1994; 27: 113-7.
2 Wagner NB, Sevilla DC, Krucoff MW, Lee KL, Pieper KS, Kent KK, Bottner RK, Selvester RH, Wagner GS. Transient alterations of the QRS complex and ST segment during percutaneous transluminal balloon angioplasty of the left anterior descending coronary artery. Am J Cardiol 1988; 62 (16) 1038-42.
3 Abboud S, Smith JM, Shargorodsky B, Laniado S, Sadeh D, Cohen RJ. High frequency electrocardiography of three orthogonal leads in dogs during a coronary artery occlusion. Pacing Clin Electrophysiol 1989; 12: 574-81.
4 Abboud S, Cohen RJ, Selwyn A, Ganz P, Sadeh D, Friedman PL. Detection of transient myocardial ischemia by computer analysis of standard and signal-averaged high-frequency electrocardiograms in patients undergoing percutaneous transluminal coronary angioplasty. Circulation 1987; 76: 585-96.
5 Petterson J, Warren S, Mehta N, Lander P, Berbari EJ, Gates K, Sörnmo L, Pahlm O, Selvester RH, Wagner GS. Changes in high-frequency QRS components during prolonged coronary artery occlusion in humans. J Electrocardiol 1995; 28: 225-7.
6 García J, Lander P, Sörnmo L, Olmos S, Wagner G, Laguna P. Comparative study of local and Karhunen-Loève based ST-T indexes in recordings from human subjects with induced myocardial ischemia. Comput Biomed Res 1998; 31 (04) 271-92.
7 García J, Wagner G, Sörnmo L, Olmos S, Lander P, Laguna P. Temporal evolution of traditional vs. transformed ECG-based indexes in patients with induced myocardial ischemia. J Electrocardiol 2000; 33 (01) 37-47.
8 Michaelides AP, Triposkiadis FK, Boudoulas H, Spanos AM, Papadopoulos PD, Kourouklis KV, Toutouzas PK. New coronary artery disease index based on exercise-induced QRS changes. Am Heart J 1990; 120 (02) 292-302.
9 Moody GB, Mark RG. Development and evaluation of a 2-lead ECG analysis program. Computers in Cardiology. IEEE Comput Society Press 1982; 39-44.
10 Laguna P, Jané R, Caminal P. Automatic detection of wave boundaries in multilead ECG signals: Validation with the CSE database. Comput Biomed Res 1994; 27 (01) 45-60.