Display options
Share it on
Full text links
Silverchair Information Systems

Cardiovasc Res. 1991 Oct;25(10):837-43. doi: 10.1093/cvr/25.10.837.

Coronary pressure-flow, pressure-function, and function-myocardial oxygen consumption relations in postischaemic myocardium.

Cardiovascular research

S Kawashima, A Satani, S Tsumoto, T Kondo, K Ikeoka, M Morita, T Iwasaki

Affiliations

  1. First Department of Medicine, Hyogo College of Medicine, Japan.

PMID: 1747877 DOI: 10.1093/cvr/25.10.837

Abstract

STUDY OBJECTIVE: The aim was to study coronary pressure-flow, pressure-myocardial wall motion and myocardial wall motion-myocardial oxygen consumption relations in postischaemic myocardium with prolonged myocardial dysfunction (stunned myocardium) in comparison with normal myocardium.

DESIGN: Regional myocardial wall thickening was measured with ultrasonic crystals, and postischaemic myocardial dysfunction was achieved by occlusion of a carotid-left anterior descending coronary artery bypass (15 min) and reperfusion (30 min). Coronary perfusion pressure was decreased in 10 mm Hg steps by constricting the bypass before and after producing postischaemic myocardial dysfunction. At each constriction step, coronary flow, regional wall thickening, and regional myocardial oxygen consumption in the area perfused by the left anterior descending artery were measured.

EXPERIMENTAL MATERIAL: 12 anaesthetised open chest mongrel dogs, weighing 12-16 kg, were studied.

MEASUREMENTS AND MAIN RESULTS: At the basal level, myocardial wall thickening of postischaemic myocardium was depressed compared to normal myocardium, at 18.5(SD 8.9)% v 1.3(7.1)%, p less than 0.01. With coronary stenosis, wall thickening gradually decreased at a coronary pressure below 60 mm Hg in normal myocardium, but remained unchanged until mean coronary pressure was reduced to 50 mm Hg in postischaemic myocardium. Myocardial wall thickening of postischaemic myocardium was always more depressed than normal myocardium. At any level of coronary pressure, coronary flow in postischaemic myocardium was not different from normal myocardium. There was no difference in regional myocardial oxygen consumption between normal and postischaemic myocardium at any level of coronary pressure. However, regional myocardial oxygen consumption in postischaemic myocardium was higher than in normal myocardium performing similar levels of myocardial wall thickening.

CONCLUSION: The coronary pressure-function relation but not the pressure-flow relation changed in postischaemic myocardium after a 15 min coronary occlusion. Regional myocardial oxygen consumption was relatively increased in postischaemic myocardium.

Similar articles

MeSH terms

Publication Types

LinkOut - more resources