Patrick M. De Coster scite author profile

In a canine model of reperfused myocardial infarction, we tested the hypothesis that after reperfusion, technetium-99m-hexakis-2-methoxyisobutyl isonitrile (Tc-MIBI) tomographic imaging still reflects occlusion blood flow when the tracer is injected before reperfusion. Nine anesthetized dogs underwent 2 hours of coronary occlusion followed by 3 hours of reperfusion ending by being killed. Reference coronary blood flow was determined by radioactive microspheres injected during occlusion and after reperfusion. Biopsies in normal and ischemic myocardium and single photon emission computed tomography were obtained during occlusion and after reperfusion. Circumferential profiles were applied to axial slices divided into 5-degree sectors. The sectors were divided into 3 groups selected on the occlusion acquisition (normal, mildly reduced, and severely reduced) and compared with the postreperfusion acquisition. Tissular Tc-MIBI kinetics was assessed both by Tc-MIBI time-activity curves of normal and ischemic tissue obtained by biopsy and by the relative gradient between normal, ischemic, and necrotic postmortem tissue samples. In biopsy samples, Tc-MIBI content remained unchanged during occlusion and after reperfusion in normal as well as in ischemic tissue (4,662 +/- 2,237 counts/min/mg vs. 4,599 +/- 1,577 counts/min/mg in normal tissue, NS; 941 +/- 903 counts/min/mg vs. 1,087 +/- 721 counts/min/mg in ischemic tissue, NS). In postmortem tissue samples, there was a good correlation between occlusion microsphere blood flow and Tc-MIBI activity (r = 0.91). In the necrotic samples, mean normalized Tc-MIBI activity (10 +/- 17%) was slightly higher than the normalized microsphere blood flow (3 +/- 3%, p less than 0.001) but markedly lower than the normalized microsphere reperfusion blood flow (63 +/- 31%, p less than 0.001). Comparing the single photon emission computed tomographic acquisitions before and after reperfusion, Tc-MIBI activity remained unchanged in normal as well as in mildly reduced or severely reduced segments. Thus, our data are consistent with the hypothesis that Tc-MIBI traces blood flow, does not redistribute significantly despite reperfusion, and can be used for imaging the area at risk.

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Effect of exercise on plasma atrial natriuretic factor and cardiac function in men and women

Donckier

Coster

Buysschaert

et al. 1988

Eur J Clin Investigation

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Abstract. In order to provide an integrated view of the physiology of atrial natriuretic factor (ANF) during exercise, we studied changes of its plasma concentrations in 13 normal subjects (seven males, six females) during three graded exercise levels and two periods of recovery (5 and 30 min), concomitantly with an assessment of cardiac function and ventricular volumes by multigated radionuclide angiography.Mean ANF levels (k SEM) increased in all patients at the second (P < 0.002) and third (P < 0.002) exercise levels, and after 5-min recovery (P

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Atrial natriuretic factor, cardiac volumes and filling pressures during exercise in congestive heart failure

Donckier¹,

Coster

Vanoverschelde

et al. 1991

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To study the mechanism of atrial natriuretic factor (ANF) release in heart failure, we measured plasma ANF concentrations, cardiac volumes and filling pressures at rest and during three graded exercise levels (E1, E2, E3) in six male patients with congestive heart failure (CHF) and compared them with 13 normal male subjects. At rest, ANF concentrations were sixfold higher in patients with CHF than in normal subjects (at rest: 53 +/- 12 vs 8 +/- 1 pmol.l-1; P less than 0.02). End-systolic ventricular volumes were increased threefold in patients with CHF (P less than 0.02) despite normal mean central venous pressure, pulmonary artery pressure (PAP) and pulmonary wedge pressure (PWP). A positive correlation was found between end-systolic ventricular volumes and plasma ANF (r = 0.93, P less than 0.001). During exercise, ANF rose by 120% over basal values both in patients with CHF and in normal subjects (P less than 0.01). Volumes higher than normal in patients with CHF increased further at E2 (P less than 0.05) in contrast to a decrease of systolic volumes recorded in normal subjects (P less than 0.05). Filling pressures rising abnormally in patients with CHF correlated with plasma ANF during exercise (r = 0.53, P less than 0.02 for PAP; r = 0.51, P less than 0.05 for PWP). In conclusion, our data suggest that ANF release in CHF is regulated at rest by cardiac volumes when filling pressures are still normal. During exercise, ANF release is not impaired in CHF with normal rest filling pressures and is regulated during exercise by left filling pressures.

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Ejection fraction response to upright exercise in hypertension: relation to loading conditions and to contractility

Wijns¹,

Pouleur²,

Robert³

et al. 1987

International Journal of Cardiology

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Coronary artery reperfusion in acute myocardial infarction: Assessment by pre- and postintervention thallium-201 myocardial perfusion imaging

Coster¹,

Detry²,

Brasseur³

et al. 1985

The American Journal of Cardiology

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