References
Downing SE, Chen V (1990) Myocardial hibernation in the ischemic neonatal heart. Circ Res 66: 763–772
Fedele FA, Gewirtz H, Capone RJ, Sharaf B, Most AS (1988) Metabolic response to prolonged reduction of myocardial blood flow distal to a severe coronary artery stenosis. Circulation 78: 729–735
Pantely GA, Malone SA, Rhen WS, Anselone CG, Arai A, Bristow J, Bristow JD (1990) Regeneration of myocardial phosphocreatine in pigs despite continued moderate ischemia. Circ Res 67: 1481–1493
Rahimtoola SH (1985) A perspective on the three large multicenter randomized clinical trials of coronary bypass surgery for chronic stable angina. Circulation 72 Suppl V: V-123–V-135
Ross Jr J (1991) Myocardial perfusion-contraction matching. Implications for coronary heart disease and hibernation. Circulation 83: 1076–1083
Schulz R, Guth BD, Pieper K, Martin C, Heusch G (1992) Recruitment of an inotropic reserve in moderately ischemic myocardium at the expense of metabolic recovery: a model of short-term hibernation. Circ Res 70: 1282–1295
Schulz R, Rose J, Heusch G (1994) Endogenous adenosine is not involved in the development of short-term myocardial hibernation. J Moll Cell Cardiol 26: 234 (abstr)
Schulz R, Rose J, Martin C, Brodde OE, Heusch G (1993) Development of shortterm myocardial hibernation: its limitation by the severity of ischemia and inotropic stimulation. Circulation 88: 684–695
Schulz R, Rose J, Martin C, Heusch G (1993) Activation of ATP-dependent potassium channels is not involved in the development of short-term myocardial hibernation in swine. Circulation 88: I-632 (abstr)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Schulz, R., Heusch, G. Acute adaptation to ischemia: Short-term hibernating myocardium. Basic Res Cardiol 90, 29–31 (1995). https://doi.org/10.1007/BF00795113
Issue Date:
DOI: https://doi.org/10.1007/BF00795113