Abstract
The effect of stunning on endothelium-dependent responses of resistance vessels in vivo remains of interest. We utilized the coronary pressure-flow relationship during maximal vasodilation in anesthetized swine to identify subtle changes in flow reserve within stunned myocardium. Prior to and following stunning, the coronary pressure-flow relationship during maximal doses of intracoronary adenosine was compared with that of the endothelium-dependent vasodilator ATP. In 11 anesthetized swine, 30 min of partial LAD occlusion and 40 min of reperfusion reduced fractional shortening from 16±4% to 6±5% (p<0.05). This caused a rigtward shift of the coronary pressure-flow relationships during infusions of either adenosine or ATP, suggestive of increased extra vascular compressive forces. With adenosine, the slope of the linear portion of the relationship (i.e., coronary pressures >30 mmHg) was 1.31±0.54 ml/min-mmHg at baseline and 1.30±0.55 ml/min-mmHg following stunning (NS). With ATP however, the slope decreased from 1.34±0.48 ml/min-mmHg at baseline to 1.08±0.47 ml/min-mmHg following reperfusion (p<0.05), indicating an attenuation of endothelium-dependent vasodilator capacity. In five of the animals, the slope of the pressure-flow relationship during intracoronary nitroprusside was unchanged post-stunning, side was unchanged post-stunning, which is similar to the adenosine results. In conclusion, the data support the hypothesis that endo-thelium-dependent vasodilation of resistance vessels in the intact animal is altered within severely stunned myocardium. The rightward shift of the coronary pressure-flow relation ships with both classes of vasodilators suggest that extra vascular factors may also play a role in limiting coronary flow reserve.
Original language | English (US) |
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Pages (from-to) | 498-506 |
Number of pages | 9 |
Journal | Basic research in cardiology |
Volume | 90 |
Issue number | 6 |
DOIs | |
State | Published - Nov 1995 |
Keywords
- ATP-nitroprusside
- Adenosine
- coronary pressure-flow relationship
- extra vascular compressive forces
- swine
- vasodilator capacity