Ventricular Repolarization in Myocardial Ischemia and Myocardial Infarction: Theory and Practice
Publisher
Springer London
Reference174 articles.
1. Cascio, W.E., G.X. Yan, and A.G. Kleber, Passive electrical properties, mechanical activity and extracellular potassium in arterially perfused and ischemic rabbit ventricular muscle. Circ. Res., 1990;66: 1461–1473.
2. Jennings, R.B., K.A. Reimer, M.L. Hill, and S.E. Mayer, Total ischemia in dog hearts in vitro. 1. Comparison of high energy phosphate production, utilization and depletion and of adenosine nucleotide catabolism in total ischemia in vitro vs severe ischemia in vivo. Circ. Res., 1981: 892–900.
3. Janse, M.J., H. Cinca, J. Morena, et al., The “border zone” in myocardial ischemia. An electrophysiological, metabolic and histochemical correlation in the pig heart. Circ. Res., 1979;44: 576–588.
4. Kleber, A.G, Resting membrane potential, extracellular potassium activity and intracellular sodium activity during acute global ischemia in isolated perfused guinea pig hearts. Circ. Res., 1983;52: 442–450.
5. Kleber, A.G., C.B. Riegger, and M.J. Janse, Extracellular K + and H + in early ischemia: mechanisms and relation to changes in impulse propagation. J. Moll. Cell. Cardiol., 1987;19: 35–44.