Andreas Zeiher

Modulation of coronary vasomotor tone in humans. Progressive endothelial dysfunction with different early stages of coronary atherosclerosis.

The endothelium plays a critical role in the control of vasomotor tone by the release of vasoactive substances. Because endothelial injury or dysfunction is considered important very early in atherogenesis, we hypothesized that abnormal endothelial function precedes the angiographic detection of coronary atherosclerosis in the human coronary circulation. The coronary vasomotor responses to three different endothelium-mediated stimuli (intracoronary infusion of acetylcholine 10(-8) to 10(-6) M, increase in blood flow to induce flow-dependent dilation, and sympathetic stimulation by cold pressor testing) were assessed by quantitative angiography and subselective intracoronary Doppler flow velocity measurements within the left anterior descending coronary artery in 38 patients. All three stimuli elicited epicardial artery dilation in all 11 patients with smooth coronary arteries and absence of risk factors for coronary artery disease (group 1). All nine patients with smooth coronary arteries but with hypercholesterolemia (group 2) demonstrated a selective impairment in endothelial function with vasoconstriction (35 +/- 12.7% decrease in mean luminal area) in response to acetylcholine but showed a preserved flow-dependent dilation (15.5 +/- 4.4% increase in mean luminal area) and vasodilation in response to cold pressor testing (14.2 +/- 4.6% increase in mean luminal area). In all nine patients with an angiographically defined smooth coronary artery segment but with evidence of atherosclerosis elsewhere in the coronary system (group 3), both acetylcholine and cold pressor testing induced vasoconstriction (26.2 +/- 8.7% and 18.7 +/- 7.9% decrease in mean luminal area, respectively), whereas flow-dependent dilation was preserved (20.4 +/- 8.7% increase in mean luminal area). In the nine patients with angiographic evidence of wall irregularities (group 4), flow-dependent dilation was also abolished and vasoconstriction occurred in response to acetylcholine and cold pressor testing (34.5 +/- 10.7% and 19.9 +/- 6.3% decrease in mean luminal area, respectively). All coronary artery segments dilated in response to nitroglycerin, suggesting preserved function of vascular smooth muscle. Despite similar reductions in coronary vascular resistance in response to the smooth muscle relaxant papaverin, patients with hypercholesterolemia demonstrated a selective impairment of vasodilation of the resistance vasculature in response to acetylcholine (p less than 0.05 versus groups 1, 3, and 4). Thus, there is a progressive impairment of endothelial vasoactive functioning in coronary arteries of patients with different early stages of atherosclerosis, beginning with a selective endothelial dysfunction in angiographically defined normal arteries in patients with hypercholesterolemia and progressively worsening to a complete loss of endothelium-mediated vasodilation in angiographically defined atherosclerotic coronary arteries.(ABSTRACT TRUNCATED AT 400 WORDS)

Correction of endothelial dysfunction in coronary microcirculation of hypercholesterolaemic patients by L-arginine

Hypercholesterolaemia impairs endothelial function, possibly by interference with the intracellular formation of endothelium-derived relaxing factor from its precursor L-arginine. Whether L-arginine reverses hypercholesterolaemia-induced endothelial dysfunction in the coronary circulation was thus investigated. Epicardial artery cross-sectional area and coronary blood flow velocity were measured in 8 hypercholesterolaemic patients (mean serum cholesterol 7.8 [SE 0.3] mmol/l) and 7 age-matched controls before and after graded intracoronary infusions of the endothelium-dependent agent acetylcholine (0.036, 0.36, 3.6 micrograms/min). The effect of intracoronary infusion of L-arginine (160 mumol/min via the guiding catheter) on these measurements was then examined. In controls, acetylcholine induced a moderate dose-dependent constriction of the epicardial artery segment of the left anterior descending artery and increased coronary blood flow (by 239% [SE 57] at the highest dose). In patients with hypercholesterolaemia, the vasoconstrictive effect of acetylcholine on epicardial segments was similar to that in controls, but the increase in coronary blood flow with acetylcholine was significantly attenuated (highest dose: 61%, p less than 0.02 vs controls). L-arginine restored the acetylcholine-induced increase in blood flow in patients with hypercholesterolaemia (198% [61] vs baseline) but did not affect coronary blood flow in controls. The findings suggest that hypercholesterolaemia impairs endothelium-dependent dilatation of the coronary microcirculation and that this impairment can be restored by short-term administration of L-arginine. The possibility that L-arginine might form the basis of treatment for coronary endothelial abnormalities induced by hypercholesterolaemia could be worth investigating.

Endothelial dysfunction of the coronary microvasculature is associated with coronary blood flow regulation in patients with early atherosclerosis.

Background The vascular endothelium is capable of regulating tissue perfusion by the release endothelium-derived relaxing factor to modulate vasomotor tone of the resistance vasculature. Methods and Results To test whether atherosclerosis is associated with a functional abnormality of endothelium-mediated microvascular relaxation affecting coronary blood flow regulation, we compared coronary blood flow responses with cold pressor testing with the response of the coronary vasculature to acetylcholine (an endothelium-dependent vasodilator) and to papaverin (a direct dilator of vascular smooth muscle) in 12 normal control patients and in 19 patients with non-flow-limiting epicardial atherosclerosis (CAD). The drugs were subselectivelyinfused into the left anterior descending coronary artery via a Doppler catheter, and the response in coronary blood flow was assessed by measuring intracoronary blood flow velocity and cross-sectional arterial area (quantitative angiography). Coronary vascular resistance decreased in all normal control patients by −24.1+5.5% (mean ± SD) during the cold pressor test, whereas the CAD patients demonstrated a variable coronary vascular resistance response to cold pressor testing despite comparable changes in the rate-pressure product. The slopes of the acetylcholine dose-blood flow response (percent change in coronary blood flow/dosage of acetylcholine) were significantly reduced in the CAD patients with 38.5 ± 24.8 compared with the normal patients (80.8 ± 28.1; p < 0.001). Although coronary blood flow responses to papaverin were slightly but significantly (p < 0.05) reduced in the CAD patients, the response to the endothelium-dependent dilator acetylcholine was considerably out of proportion to the papaverin response in these patients compared with the normal patients. The capacity of the coronary system to increase blood flow in response to acetylcholine expressed as relative proportion of the maximal papaverin response was 52.5 ± 18.2% in the normal control patients but only 33.6 ± 23.6% in the CAD patients (p < 0.025 versus normals). There was a significant negative correlation (r= −0.69; p< 0.0001) between cold pressor test-induced changes in coronary vascular resistance and the capacity of the coronary system to increase blood flow in response to acetylcholine. Conclusions Early stages of epicardial atherosclerosis are associated with an impairment in endothelium-dependent dilation of the coronary microvasculature, indicating that the pathophys-iological consequences of atherosclerosis may extend into the human coronary microcirculation. The correlation between cold pressor test-induced coronary vascular resistance changes and the extent of endothelial dysfunction suggests a relation between endothelial function of the microvasculature and coronary blood flow regulation during sympathetic stimulation associated with increased myocardial work.

Impaired Endothelium-Dependent Vasodilation of Coronary Resistance Vessels Is Associated With Exercise-Induced Myocardial Ischemia

BACKGROUND The release of endothelium-derived relaxing factors has been shown experimentally to be of pivotal importance for the maintenance of coronary blood flow during increased demand. In humans with coronary atherosclerosis, endothelial vasodilator dysfunction is not confined only to epicardial conductance vessels but may also extend into the coronary microcirculation. We therefore tested the hypothesis that endothelial vasodilator dysfunction of the coronary resistance vasculature is associated with myocardial ischemia during exercise in patients without hemodynamically significant epicardial artery stenoses. METHODS AND RESULTS Coronary vasodilator function was assessed by subselective infusion of the endothelium-dependent dilator acetylcholine (0.036 to 3.6 micrograms/mL) and the endothelium-independent dilator papaverine (7 mg). Coronary blood flow responses were evaluated by intracoronary Doppler flow velocity recordings and quantitative angiography. Exercise-induced myocardial perfusion was determined by 201Tl single photon emission computed tomographic imaging. Thirteen patients had exercise-induced myocardial perfusion defects suggestive of myocardial ischemia, whereas 14 patients had normal thallium imaging during exercise. In patients with exercise-induced thallium perfusion defects, coronary blood flow responses to acetylcholine were significantly (P < .005) blunted compared with patients with normal thallium imaging during exercise. In contrast, coronary blood flow reserve to the endothelium-independent smooth muscle relaxant papaverine was similar in the two groups. Patients with exercise-induced thallium perfusion defects exhibited a significantly (P < .005) reduced (23.9 +/- 9.0% [mean +/- SD]) endothelium-mediated coronary vasodilator capacity compared with patients with normal thallium testing (56.2 +/- 27.8%). Epicardial artery vasoreactivity to acetylcholine did not differ between the two groups. CONCLUSIONS Impaired endothelium-dependent vasodilation of the coronary microcirculation is associated with exercise-induced myocardial ischemia in patients without hemodynamically significant epicardial artery lesions. Endothelial vasodilator dysfunction extending into the coronary microcirculation may thus contribute to the ischemic manifestations of coronary artery disease during times of increased myocardial demand.

Flow-dependent coronary artery dilatation in humans.

To determine the role of endothelium-mediated flow-dependent coronary dilatation in humans, we studied the coronary dilatation exerted by maximal pharmacologic increase of coronary flow in 14 patients with normal coronary arteries. Biplane views of the circumflex (Cx) and left anterior descending (LAD) coronary arteries were obtained before and 80 seconds after inducing a maximal increase in flow selectively in the Cx by injecting 7 mg papaverine through a 2F infusion catheter in the midportion of the Cx (n = 10). The diameter of the proximal Cx segment (exposed to increased flow but not to papaverine directly) increased with papaverine by 11.1 +/- 4% (range, 5.2-16.4%, p less than 0.001 vs. control), whereas the LAD diameter did not change. LAD and Cx diameters increased by 18.3% and 21.2% after nitroglycerin given into the left main artery, which showed the preserved capability of the LAD to dilate. In four patients with normal coronary arteries and six patients with coronary artery disease (CAD, non-flow-limiting stenosis), a similar protocol was applied with the LAD for the assessment of flow-dependent dilatation. Simultaneously, intracoronary blood flow velocity was measured by an intracoronary Doppler catheter. Papaverine-induced coronary flow reserve (peak/resting velocity ratio) in the LAD was 4 +/- 0.7 (range, 3.5-5) in normal arteries and was 3.5 +/- 0.6 (range, 2.7-4.4) in CAD.(ABSTRACT TRUNCATED AT 250 WORDS)

Tissue Endothelin-1 Immunoreactivity in the Active Coronary Atherosclerotic Plaque A Clue to the Mechanism of Increased Vasoreactivity of the Culprit Lesion in Unstable Angina

BACKGROUND The pathomorphological substrate of complicated coronary atherosclerotic lesions underlying unstable angina is characterized by a localized chronic inflammatory process. Functionally, coronary lesions associated with unstable angina demonstrate an enhanced vasoreactivity. Endothelin-1 is a potent vasoconstrictor peptide produced not only by endothelial cells but also by macrophages and polymorphonuclear leukocytes, the cell types characteristic of inflammation. METHODS AND RESULTS By use of immunohistochemical techniques, we examined the presence of endothelin-1 in coronary atherosclerotic plaque tissue obtained by directional coronary atherectomy of primary lesions from 50 consecutive patients. The tissue specimens of 43 of 50 patients (86%) demonstrated endothelin-1-like immunoreactivity. Endothelin-1-like immunoreactivity preferentially localized to macrophage-rich areas, to hypercellular regions rich in microvessels, and to plaque areas with evidence of prior hemorrhage. Double-immunolabeling revealed that both macrophages (HAM56 positive) and intimal smooth muscle cells (alpha-actin positive) demonstrated cytoplasmic immunostaining for endothelin-1. Semiquantitative analysis of endothelin-1-like immunostaining revealed significantly (P < .005) higher staining grades in active (1.86 +/- 0.15, n = 40) compared with nonactive lesions (0.78 +/- 0.35, n = 10): endothelin-1 staining grades were significantly (P < .001) lower in patients with stable angina (0.69 +/- 0.19, n = 13) than in patients with crescendo angina (1.82 +/- 0.30, n = 11), with angina at rest (2.08 +/- 0.21, n = 12), or with angina after myocardial infarction (2.0 +/- 0.26, n = 14). CONCLUSIONS Endothelin-1 immunostaining of atherosclerotic tissue localizes predominantly with plaque components indicative of chronic inflammatory processes. The increased tissue endothelin-1-like immunoreactivity in active coronary atherosclerotic lesions may provide a clue to the mechanisms of increased vasoreactivity of the culprit lesion in acute ischemic syndromes, which is the clinical substrate of the active coronary atherosclerotic plaque.

Increased tissue endothelin immunoreactivity in atherosclerotic lesions associated with acute coronary syndromes

Acute coronary syndromes are accompanied by exaggerated vasoconstriction. Since thrombin induces production of the potent vasoconstrictor endothelin-1, we used immunohistochemistry on coronary atherosclerotic specimens from 30 consecutive patients. Endothelin-1-like immunoreactivity was present in 5 of 9 (55%) lesions from patients with stable angina, in 6 of 7 (86%) from crescendo angina, and in all 14 from angina at rest. Endothelin-1 immunoreactivity was most common in areas with a positive Prussian-blue reaction indicative of previous intraplaque haemorrhage. Tissue endothelin-1-like immunoreactivity might contribute to the exaggerated coronary vasoconstriction.

Intracoronary thrombus formation causes focal vasoconstriction of epicardial arteries in patients with coronary artery disease.

BackgroundExperimental studies have demonstrated that intracoronary platelet aggregation and thrombus formation may induce marked vasoconstriction of epicardial arteries with endothelial injury. Methods and ResultsTo examine the effects of intracoronary thrombus formation on coronary vasomotor tone of human epicardial arteries in vivo, we studied 15 patients who developed intracoronary thrombi adherent to the guide wire during balloon dilatation. Epicardial artery luminal area was evaluated by quantitative coronary angiography proximal and distal to the site of intracoronary thrombus formation and in a reference vessel before and after thrombus formation as well as after intracoronary injection of 0.2–0.3 mg nitroglycerin. All artery segments distal to the site of thrombus formation showed vasoconstriction with a luminal area reduction of −27.4±17.1% (p < 0.001), whereas proximal vessel segments and reference vessels not manipulated during percutaneous transluminal coronary angioplasty did not demonstrate any significant luminal area changes during thrombus formation. Angiographic measurements after advancing the guide wire with the adherent thrombus (performed in six of the 15 patients) revealed in all patients that vasoconstriction did develop at a new site distal to the thrombus with persistence of the initial vasoconstriction now residing proximal to the thrombus. Thus, there was a sequential association between thrombus formation and subsequent distal vasoconstriction. Intracoronary injection of nitroglycerin abolished the thrombus-induced vasoconstriction. No significant luminal area changes were observed in 20 patients without angiographic evidence of intracoronary thrombus formation. ConclusionsIntracoronary thrombus formation during percutaneous transluminal coronary angioplasty causes focal vasoconstriction of epicardial arteries in patients with coronary artery disease. Although caution must be advised in the extrapolation of this phenomenon, which was observed in a manipulated artery during coronary angioplasty, the vasoconstrictor response to intracoronary thrombus formation in vivo may play an important role in the dynamic mechanisms of acute coronary heart disease syndromes.

Hierarchy of levels of ischemia-induced impairment in regional left ventricular systolic function in man.

We tested the hypothesis that different subsets of ischemia-induced wall motion disorders are characterized by specific patterns of abnormal regional left ventricular systolic function. Regional contraction was quantitatively assessed from two-dimensional echocardiograms by an automated integrative analysis considering the time course of wall motion during the entire contraction sequence in 20 patients with chronic myocardial infarction, in 13 patients with impending myocardial infarction (less than 2 hr after the onset of symptoms), and in nine patients during transient myocardial ischemia. Wall motion abnormalities were detected in all patients by the integrative analysis. In contrast, the sensitivity for detecting wall motion abnormalities was 80% during chronic infarction, 77% during impending infarction, and 56% during transient ischemia if only end-diastolic and end-systolic frames were compared for assessment of overall regional systolic function. There were distinct differences in the time course of abnormal wall excursion between the three groups. Chronic infarction was characterized by a monophasic contraction pattern, with abnormal synergy in regional contractile events occurring predominantly during early systole. In contrast, transient ischemia caused predominantly mid-to-late systolic abnormal synergy followed by late systolic shortening corresponding to a polyphasic contraction pattern. During impending infarction, an intermediate temporal contraction pattern was present with both early and mesosystolic abnormal synergy.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of stenotic geometry on flow behaviour across stenotic models

In the study the influence of the geometry of stenoses on poststenotic flow characteristics such as faminar flow, separation, flow instabilities and local turbulences were assessed. Stenoses were represented by 12 rigid-walled models. The different geometric characteristics were length, percentage lumen area reduction, exit angle and eccentric location of the residual lumen. The flow characteristics were investigated by visualising the flow pattern with a birefringent solution and by measuring the flow and the pressure drop along the stenoses. All data were obtained under steady flow conditions for Reynolds numbers varying from approximately 1 to 500. In stenoses with short and concentric shapes local turbulence develops at Reynolds numbers well below the corresponding Reynolds numbers obtained in stenoses with the same percent lumen area reduction but with a long and eccentric shape. The results indicate that the photoelastic technique is a suitable method of obtaining a picture of the overall flow field downstream of a constriction.