L－精氨酸逆转一氧化氮抑制后的犬冠脉血流动力学改变和内皮素－1含量升高

观察了犬冠脉内灌注Ｎ－单甲基左旋精氨酸（Ｌ－ＮＭＭＡ）后再灌注Ｌ－精氨酸（Ｌ－Ａｒｇ）和单独灌注Ｌ－ＮＭＭＡ前后冠脉血流动力学、冠脉血流储备以及冠脉对不同浓度的乙酰胆碱（Ａｃｈ）反应的变化，同时用放免法测定冠脉前降支（ＬＡＤ）伴行静脉血中内皮素－１（ＥＴ－１）含量。结果发现，Ｌ－Ａｒｇ完全逆转了灌注Ｌ－ＮＭＭＡ引起的血流动力学改变，使心率回升，下降的基础冠脉流量（ＣＢＦ），从２０±８ｍｌ／ｍｉｎ回升至２８±７ｍｌ／ｍｉｎ，Ｐ＜０．０５），降低的冠脉储备恢复，从５１±１０ｍｌ／ｍｉｎ升至９４±１５ｍｌ／ｍｉｎ，Ｐ〈０．０１），ＥＴ－１的含量不再升高，从１５．５±３．０ｎｇ／Ｌ下降至５．０±２．０ｎｇ／Ｌ，Ｐ〈０．０１），Ａｃｈ介导的ＣＢＦ增加不再受到抑制（Ｐ〈０．０１）。结果提示提供外源性Ｌ－Ａｒｇ可增加一氧化氮（ＮＯ）的产生，使由于ＮＯ抑制而产生的血流动力学改变和ＥＴ－１升高发生逆转。     

Normalization of impaired coronary circulation in hypertrophied rat hearts

We tested the hypothesis that impaired coronary autoregulation, decreased flow reserve, and diminished reactive hyperemic response in hypertrophied hearts with coronary arterial hypertension may be reversible after relief of pressure overload. In 4-week ascending aortic banded rats, in vivo peak systolic left ventricular pressure increased to 178 +/- 8 mm Hg (103 +/- 6 mm Hg in sham-operated control group). This increased pressure produced myocardial hypertrophy, and the left ventricular weight/body weight ratio was 46% above that of the control group. After the rats were killed, the coronary perfusion pressure-flow relations were obtained during resting conditions and maximal vasodilation after a 40-second period of ischemia in beating but nonworking isolated hearts perfused with Tyrode's solution with bovine red blood cells and albumin. In hearts from control rats, coronary autoregulation (i.e., a slight decrease in flow with reduction of pressure) was observed in the range of 50-100 mm Hg of perfusion pressure. A pronounced reactive hyperemic response was observed: a peak flow/resting flow ratio of 2.9 +/- 0.1 and a repayment ratio of 1.7 +/- 0.2 at 100 mm Hg of perfusion pressure. In hearts of banded rats the resting pressure-flow relation was rectilinear in the range of 25-175 mm Hg of perfusion pressure. Flow reserve and the time of reactive hyperemia to one half peak flow decreased at 50, 100, and 150 mm Hg of perfusion pressure compared with values in control rat hearts. Four weeks after debanding, peak systolic left ventricular pressure and cardiac hypertrophy had normalized. The impaired autoregulation, decreased flow reserve, and diminished reactive hyperemic response had completely reversed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of the rise in aortic pressure on coronary flow reserve in dogs. Comparison between constriction of the descending thoracic aorta and injection of methoxamine

In order to investigate the effect of a rise in aortic pressure on coronary flow reserve and also on the difference of its effect according to the methods used to raise aortic pressure, this experiment was performed. Using 7 anesthetized dogs with heart rate held constant by a pacemaker, both the resting and the peak reactive hyperemic left circumflex coronary flow were measured following raising of the aortic pressure by either descending thoracic aorta constriction or methoxamine injection. The resting and peak reactive hyperemic coronary flows both increased linearly following the rise in aortic pressure. The magnitude of the resting flow increment and the resting coronary vascular resistance following raising aortic pressure did not differ significantly between the two different methods. However, the magnitude of the peak hyperemic flow increment and the peak hyperemic coronary vascular resistance following raising aortic pressure were significantly smaller with methoxamine injection than with aortic constriction. These data indicate that coronary flow reserve increases proportionally with a rise in aortic pressure. However, the magnitude of the increment of coronary flow reserve is smaller following an alpha-adrenoceptor-mediated rise in aortic pressure, because the maximal coronary vasodilation was reduced by alpha-stimulated coronary vasoconstriction.     

Effects of previous myocardial infarction on measurements of reactive hyperemia and the coronary vascular reserve

The measurement of coronary vascular reserve by the reactive hyperemic response to ischemia has been advocated as a practical method of assessing the physiologic significance of coronary stenoses. Because the concept of measuring coronary blood flow during maximal vasodilation assumes a normal arteriolar network and viable myocardium, the presence of previous myocardial infarction may cause a significant decrease in the coronary reserve unrelated to the severity of a coronary stenosis itself. To determine the potential importance of this effect, rest and hyperemic coronary blood flow were measured in 14 dogs in the regions subtended by the left anterior descending and left circumflex coronary arteries. One hour occlusion of the left anterior descending artery followed by reperfusion was performed in 10 dogs; the 4 remaining dogs in which no occlusion was performed served as control animals (group 3). One week later, rest and hyperemic blood flow measurements were repeated in all 14 dogs. Of the 10 dogs undergoing left anterior descending artery occlusion, 5 had a large infarct (group 1) and 5 had a small infarct (group 2). In group 1 in the 1 week study, both the coronary reserve in the left anterior descending artery zone and the ratio of the coronary reserve in this zone and the left circumflex artery zone decreased compared with values before occlusion (from 425 +/- 134 to 150 +/- 34% and from 1.56 +/- 0.40 to 0.68 +/- 0.31, respectively; both p = 0.007).(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of coronary flow restriction on the viability of porcine myocardium

Summary The effect of a prolonged (3 hours) defined coronary flow restriction on early (30 minutes) and late (24 hours) reperfusability and survival of the myocardium was studied in a closed-chest pig model. Coronary blood flow (CBF) was restricted to 51±4% (moderate flow restriction) and 36±6% (severe flow restriction) of preexisting resting flow values. Regional determination of the restricted CBF after severe flow restriction showed the anticipated extension of the ischemic area from endocardial to epicardial layers and to the lateral border zone. Upon early reperfusion a hyperemic effect was observed, which reflected the preceding degree of underperfusion. The maximal hyperemic effect was found in samples with CBF restriction to 38% of the control flow values. Twenty-four hours after blood flow restitution the hyperemic effect had disappeared. At this time control flow values had not returned, where previous CBF restriction had exceeded 50%. The amount of infarcted tissue in the area supplied by the left circumflex artery was 5.7% after moderate, and 31.6% after severe flow restriction. Morphologically the infarcted myocardium consisted of disseminated necrosis after moderate, and of confluent necrosis after severe flow restriction. At flow restriction exceeding 50%, the chances of reestablishing perfusion and thus salvaging the myocardium appear minimal.This study was supported by the Deutsche Forschungsgemeinschaft-Grant Bo 172/7     

Left ventricular myocardial edema. Lymph flow, interstitial fibrosis, and cardiac function

We hypothesized that both acute and chronic accumulation of myocardial interstitial edema (extravascular fluid [EVF]) would compromise cardiac function. We also postulated that excess fluid within the myocardial interstitial space would potentiate interstitial fibrosis, thus further compromising function. Dogs were divided into three groups: 1) control, 2) chronic pulmonary hypertensive with right heart failure, and 3) chronic arterial hypertensive. The quantity of EVF, expressed as the unitless blood-free (wet weight-dry weight)/dry weight ratio, and interstitial fibrosis (collagen content) were determined and correlated with cardiac function at baseline and after acute elevation of coronary venous pressure and reduction of cardiac lymph flow. Control EVF was 2.90 +/- 0.20 (mean +/- SD), which increased to 3.45 +/- 0.16 after acute (3-hour) elevation of coronary sinus pressure. This EVF significantly compromised cardiac function. The EVF in chronically hypertensive dogs and in dogs with chronic right heart pressure elevations was 3.50 +/- 0.30 and 3.50 +/- 0.08, respectively. End-diastolic left ventricular interstitial fluid pressure increased from a control value of 14.9 +/- 3.1 (at EVF = 2.9) to 24.8 +/- 3.7 (at EVF = 3.5). An EVF of 3.5 produced approximately 30% reduction of the heart's ability to maintain cardiac output at a left atrial pressure of 15 mm Hg. The compromised function in these chronic models is exacerbated after acute elevation of coronary venous pressure and reduction of cardiac lymph flow. Collagen levels were elevated by at least 20% in the chronic hypertensive dogs and in the nonhypertrophied left ventricles of dogs with chronic right heart pressure elevation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Reduction in coronary vasodilator reserve following coronary occlusion and reperfusion in anesthetized dog: role of endothelium-derived relaxing factor, myocardial neutrophil infiltration and prostaglandins

To examine the effects of acute myocardial ischemia and reperfusion on regional coronary vasodilator (or flow) reserve, peak reactive hyperemic blood flow following a 10 s occlusion was obtained in dogs subjected to circumflex (Cx) coronary artery occlusion for 1 h followed by reperfusion for 1 h. Acute myocardial ischemia resulting from Cx artery occlusion-reperfusion caused an attenuation in peak reactive hyperemic Cx flow (mean +/- S.E., from 215 +/- 29% to 87 +/- 17%, P less than or equal to 0.001). Acetylcholine-induced increase in Cx flow was also significantly (P less than or equal to 0.01) attenuated following Cx occlusion-reperfusion. These alterations were not observed in the left anterior descending (LAD) coronary artery, which was not subjected to occlusion. Pre-treatment of four dogs with indomethacin inhibited prostaglandin release (P less than or equal to 0.01), but did not affect peak reactive hyperemic coronary flow or acetylcholine-induced increase in coronary flow before or after occlusion-reperfusion. Histopathology revealed extensive myocardial neutrophil infiltration in the Cx-supplied region compared to the LAD-supplied region. Myocardial myeloperoxidase activity, an index of neutrophil infiltration, was also increased in the Cx compared to the LAD region (P less than or equal to 0.02). Myocardial neutrophil accumulation and myeloperoxidase activity were similar in the control and indomethacin-treated animals. These observations suggest that acute myocardial ischemia resulting from coronary artery occlusion-reperfusion impairs coronary vasodilator reserve in anesthetized dogs. This impairment, which was not modified by prostaglandin inhibition, may be related to the loss of endothelium-derived relaxing factor and/or decreased microvascular cross-sectional area resulting from capillary plugging by neutrophils.     

Role of adenosine in coronary blood flow regulation after reductions in perfusion pressure

We employed intracoronary infusion of adenosine deaminase to test the hypothesis that endogenous adenosine contributes to regulation of coronary blood flow following acute reductions in coronary artery pressure. In 16 closed-chest anesthetized dogs, we perfused the left circumflex coronary artery from a pressurized arterial reservoir and measured coronary blood flow following changes in perfusion pressure before and 10 minutes after the start of intracoronary adenosine deaminase, 5 U/min per kg body weight. Parallel studies showed that this dose of enzyme resulted in cardiac lymph adenosine deaminase concentrations of 3.2 +/- 0.4 U/ml. Adenosine deaminase abolished the vasodilator response to intracoronary adenosine, 4 and 8 micrograms, but had no effect on the vasodilator response to intracoronary papaverine, 200 and 300 micrograms, demonstrating enzyme efficacy and specificity. Additional experiments demonstrated that adenosine deaminase reversibly attenuated myocardial reactive hyperemia following 5- and 10-second coronary occlusions by 30% (P less than 0.05), evidence that the infused enzyme effectively degraded endogenous adenosine. However, adenosine deaminase did not alter the time course for coronary autoregulation or the steady state autoregulatory flow response over the pressure range between 125 and 75 mm Hg. Further, adenosine deaminase did not alter steady state coronary flow when perfusion pressure was reduced below the range for effective autoregulation (60-40 mm Hg). Such results show that adenosine is not essential for either coronary autoregulation or for the maintenance of coronary vasodilation when autoregulatory vasodilator reserve is expended.     

Relationship between sympathetic neural activity, coronary dynamics, and vulnerability to ventricular fibrillation during myocardial ischemia and reperfusion

The relationship between neural sympathetic discharge and vulnerability to ventricular fibrillation during myocardial ischemia and reperfusion was studied in 26 chloralose-anesthetized dogs. Preganglionic cardiac sympathetic impulse activity and ventricular fibrillation thresholds were separately determined before and during a 10-minute period of left anterior descending coronary artery occlusion and during release-reperfusion. Within 2 minutes of occlusion the ventricular fibrillation threshold was significantly decreased (from 25 +/- 1.3 to 16 +/- 2.3 mA, p less than 0.05) corresponding with the period of maximal activation of cardiac sympathetic preganglionic fibers (from 4.4 +/- 0.2 to 6.3 +/- 0.5 impulses/sec). Coronary sinus blood flow and oxygen tension decreased significantly. All these changes persisted for 5 to 6 minutes, thereafter returning to control levels despite continued obstruction of the coronary artery. A transient but significant reduction in ventricular fibrillation threshold also occurred with release of the occlusion but was unaccompanied by increases in sympathetic neural discharge. Bilateral stellectomy completely prevented the ventricular fibrillation threshold changes observed during coronary artery occlusion. However, there was no change in coronary sinus oxygen tension or blood flow. During reperfusion, stellectomy increased rather than decreased vulnerability to ventricular fibrillation. Stellectomy augmented the reactive hyperemic response to release-reperfusion. These findings indicate that enhanced cardiac sympathetic neural activity contributes to ventricular vulnerability associated with coronary artery obstruction. An opposite action results during release-reperfusion. Cardiac sympathetic neural discharge, by reducing the magnitude of reactive hyperemic response through influence on coronary vascular tone, exerts an antifibrillatory effect.     

The value of lesion cross-sectional area determined by quantitative coronary angiography in assessing the physiologic significance of proximal left anterior descending coronary arterial stenoses

The results of previous work from this laboratory have shown a poor correlation between percent stenosis (determined visually with calipers) and the coronary reactive hyperemic response (an index of maximal coronary vasodilator capacity) determined during cardiac surgery. This study was performed to determine whether other parameters of lesion severity could predict the reactive hyperemic response and thus the hemodynamic significance of coronary stenoses in human beings. Twenty-three patients with lesions in the proximal left anterior descending coronary artery were studied. To account for differences in expected vessel size, patients with large diagonal branches (greater than one-half the diameter of the left anterior descending artery) arising before the lesion were excluded. Computer-assisted quantitative coronary angiography was used to measure percent diameter stenosis, percent area stenosis, and minimal stenosis cross-sectional area. With a pulsed Doppler velocity probe, reactive hyperemic responses were recorded after a 20 sec coronary occlusion of the left anterior descending artery at cardiac surgery before cardiopulmonary bypass and were quantified by the peak/resting velocity ratio (normal greater than 3.5:1). Percent area stenosis ranged from 7% to 54% for vessels with normal reactive hyperemic responses and from 27% to 94% for vessels with abnormal reactive hyperemic responses. With both percent diameter stenosis and percent area stenosis there was substantial overlap between vessels with normal and abnormal reactive hyperemic responses. In contrast, nine of nine vessels with normal reactive hyperemic responses had lesion minimal cross-sectional areas of greater than 3.5 mm2 and 13 of 14 vessels with abnormal reactive hyperemic responses had minimal cross-sectional areas of less than 3.5 mm2.(ABSTRACT TRUNCATED AT 250 WORDS)     

A laser Doppler catheter for monitoring both phasic and mean coronary vein flow

Summary A new catheter-type laser Doppler velocimeter has been developed to monitor coronary vein flow. A thin graded-index multimode optical fiber (outer diameter of 125 µm) is set inside a 5-F catheter, and eight elastic silicon rubber spikes are arranged radially toward the vessel wall to fix the catheter tip in or near the axial region of the coronary vein. He-Ne laser light (wave length =632.8nm) is introduced into the blood through the optical fiber, and reflected light is collected by the same fiber. The Doppler signal is detected by a spectrum analyzer. To avoid any effect by the spikes on flow, the fiber is extended from the catheter tip by 3 mm at the time of measurement. Straight and curved tubing was used to examine the accuracy of flow measurement. The flow velocities recorded by the catheter, which were measured by an electromagnetic flowmeter, exhibited excellent linearity (r= straight: 0.982, curved: 0.996). The blood flow velocity in the great cardiac vein was measured by this method in five dogs. The predominantly systolic waveform, which is a characteristic of the coronary vein flow, was observed in all of the dogs. The great cardiac vein velocity increased around the beginning of the ventricular ejection and decreased gradually after the peak formation at mid- or end-diastole. In addition to this main peak, small flow components were frequently observed during isovolumic contraction and the atrial contraction phase, although these flow components varied in individual dogs. Following left anterior descending artery occlusion, the great cardiac vein flow velocity decreased significantly. Following reopening of the left anterior descending artery, the great cardiac vein flow velocity increased, showing a reactive hyperemic response, and then it returned to the control level. In conclusion, our catheter-type laser Doppler velocimeter holds promise for continuous monitoring of both mean and pulsatile coronary vein flow velocities in man.Supported by Grant Number 62211016 from the Ministry Of Education, Science and Culture, Japan.     

Coronary vascular K+ATP channels contribute to the maintenance of myocardial perfusion in dogs with pacing-induced heart failure

The functional role of coronary vascular ATP-sensitive potassium (K+ATP) channels in the regulation of coronary blood flow (CBF) has not been determined in chronic heart failure (CHF). To test the hypothesis that K+ATP channels contribute to myocardial perfusion in HF, we examined the effects of intracoronary infusion of glibenclamide, an inhibitor of K+ATP channels, on basal CBF in control and CHF dogs. CHF was produced in mongrel dogs by pacing the right ventricle for 4 weeks. Under anesthesia, CBF in the left anterior descending coronary artery, other hemodynamic and metabolic parameters, or regional myocardial blood flow were measured. Basal CBF was less in CHF dogs than in controls. Glibenclamide at the graded doses (5, 15 and 50 microg x kg(-1) x min(-1) decreased CBF in both control and CHF dogs. The percentage decrease in CBF with glibenclamide at 50 microg x kg(-1) x min(-1) was greater (p<0.01) in CHF dogs than in controls. The greater decrease in CBF with glibenclamide at 50microg x kg(-1) x min(-1) was associated with myocardial ischemia. Glibenclamide decreased myocardial blood flow in each sublayer of the myocardium in the 2 groups. These results suggest that the basal activity of coronary vascular K+ATP channels is increased in CHF dogs but not in controls. This may contribute to the maintenance of myocardial perfusion in CHF.     

High energy phosphate stores and lactate levels in different layers of the canine left ventricle during reactive hyperemia.

To study postischemic recovery of myocardial energy metabolism in relation to the reactive hyperemic response, the tissue levels of creatine phosphate (CP), adenosine triphosphate (ATP), and lactate were estimated in the outer, middle, and inner layers of the left ventricle before, during, and at several times after a 20-second bilateral coronary arterial occlusion in the open-chest dog. The reactive hyperemic response was characterized by monitoring blood flow in the cannulated coronary sinus in a separate group of dogs. Substantial changes in myocardial CP and lactate, but not ATP, were produced by the occlusion and reciprocal transmural gradients in CP and lactate occurred such that CP was lowest and lactate was highest in the inner layer. Recovery of high energy phosphate stores (CP + ATP) occurred long before blood flow returned to the preocclusion level, this being achieved in two of the three layers after completion of only 29% of the reactive hyperemic response when the blood flow debt repayment was 151%. Lactate returned to control levels during the response, but recovery times in the different layers were delayed compared to those for the high energy phosphate stores. A transmural lactate gradient was maintained as the regional levels declined, and recovery times were different for each of the three layers, being longest in the inner layer. The results suggest that during the reactive hyperemic response (1) kinetically different processes are involved in the repletion of energy stores and the removal of anaerobically produced metabolites, and (2) metabolic vasodilation of coronary vessels probably is more pronounced and sustained longer in the inner than in the outer ventricular layer.     

Effect of diltiazem on coronary reactive hyperemia in patients with flow-limiting coronary artery stenosis

The acute effects of diltiazem on coronary reactive hyperemia were studied in 12 patients with flow-limiting coronary stenosis. Reactive hyperemia was elicited by injection of 8 ml contrast medium into the left coronary artery, while coronary sinus blood flow and left ventricular and aortic pressures were continuously recorded. Relative magnitude of hyperemia was estimated by the ratio of coronary flow at peak hyperemia to baseline flow (hyperemic ratio). Coronary resistance was calculated as the ratio between mean aortic pressure minus left ventricular mean diastolic pressure and coronary sinus blood flow. The 12 patients studied had flow-limiting coronary stenosis since their hyperemic ratio was significantly restrained when compared to that of seven control subjects (1.45 +/- 0.17 vs 2.02 +/- 0.24, respectively; p less than 0.001). The intravenous infusion of diltiazem (0.30 mg X kg-1) reduced heart rate, mean aortic pressure, and myocardial oxygen consumption (all p less than 0.001). After diltiazem the hyperemic ratio was blunted when compared to the basal state (1.36 +/- 0.15 vs 1.45 +/- 0.17, respectively; p less than 0.05), and hyperemia volume was reduced (-33%; p less than 0.001). The decrease in coronary resistance at peak hyperemia was also reduced from -30 +/- 8% to -25 +/- 8% (p less than 0.05). We conclude that diltiazem blunts coronary reactive hyperemia in patients with demonstrated flow-limiting coronary stenosis. This reduction of coronary flow response to a hyperemic stimulus could favorably influence blood flow distribution in patients with significant coronary stenosis.     

Endogenous and exogenous catecholamines can accentuate myocardial ischemia only when coronary blood flow is below a critical level

Seventy-eight dogs with graded constriction of the left main coronary artery were studied to determine the coronary blood flow at which the heart is vulnerable to catecholamine induced ischemia. The left main coronary artery was cannulated with a Griggs' type self-perfusing cannula. The coronary blood flow (CBF) was reduced by graded constriction of the extra-corporeal circuit connected with this cannula. Blood flow rates between 12 and 117 ml/min/100 g were studied. Cardiac activation was achieved by either intracoronary administration of a physiological dose of catecholamine (noradrenaline; 0.4 microgram/kg/min or adrenaline; 0.2 microgram/kg/min), or by electrical stimulation of the left stellate ganglion (4 Hz, 2 msec, 10 V for 5 min). When CBF was below 30 ml/min/100 g, accentuated myocardial ischemia was always indicated by lactate production, myocardial creatine phosphate depletion, ischemic ST segment changes, and elevated left ventricular end diastolic pressure (LVEDP) during these stimulations. When CBF was above 50 ml/min/100 g, catecholamine clearly accelerated the cardiac function and myocardial metabolism with no signs of ischemia. When CBF was between 30 and 50 ml/min/100 g signs of accentuated myocardial ischemia appeared during catecholamine activation in only 1/2 of the dogs. This study indicated that the critical level for CBF at which endogenous or exogenous catecholamine can produce ischemia is between 30 and 50 ml/min/100 g.     

Effects of prostacyclin on systemic and coronary hemodynamics in the dog

The hemodynamic effects of intravenous and intracoronary prostacyclin (PGl₂) were evaluated in anesthetized, open-chest instrumented dogs. Coronary artery and aortic blood flows, aortic and left ventricular (LV) diastolic pressure, and heart rate were measured continuously. With intravenous PGl₂ both left anterior descending (LAD) and circumflex (LCX) coronary artery blood flows remained unchanged; both arterial and LV diastolic pressures declined; coronary resistance declined progressively with increasing PGl₂; peak reactive hyperemic flow following 10-second coronary artery occlusion declined progressively with increasing PGl₂; heart rate responses were variable at low doses but increased at high dose; and aortic blood flow increased consistently. With intracoronary PGl₂ both LAD and LCX coronary blood flows increased promptly in dose-related manner. In dogs with critical coronary artery narrowing (loss of reactive hyperemia) created by an external plastic occluder, intravenous prostacyclin (0.5 μg/kg/min) did not after flow in the narrowed coronary artery, but increased flow in the non-narrowed coronary artery (p < 0.02) as both systemic arterial and LV diastolic pressures declined. These results show that PGl₂ has potent direct coronary and systemic vasodilator actions.     

Subendocardial underperfusion during acute aorticopulmonary shunting in anesthetized dogs

Changes in regional coronary hemodynamics during A-P shunting were studied in open-chest anesthetized dogs. During direct A-P shunting coronary driving pressure fell which resulted in decreased coronary flow to the subendocardial region of the left ventricle and abnormal coronary reactive hyperemic responses. When aortic diastolic pressure was augmented during indirect A-P shungting, underperfusion of the subendocardial region was corrected and the coronary hyperemic responses returned to normal. Since shunt flows were equal in both groups, the magnitude of the shunt was not a factor in reducing coronary flow. The present study indicates that acute A-P shunts may cause underperfusion of the left ventricular subendocardium. Thus, under these conditions, the left ventricle is stressed by a combination of an increased workload in the face of reduced subendocardial coronary flow.     

Increased extravascular forces limit endothelium-dependent and -independent coronary vasodilation in congestive heart failure.

OBJECTIVE: The increase in coronary blood flow (CBF) in response to endothelium-dependent vasodilators is reduced in congestive heart failure (CHF) suggesting endothelial dysfunction. However, increases in extravascular compressive forces secondary to elevated left ventricular diastolic pressure (LVEDP) in CHF might contribute to this abnormality. METHODS: We measured CBF responses to intracoronary doses of the endothelium-dependent vasodilators acetylcholine (ACH) and bradykinin (BK) and the endothelium-independent vasodilator sodium nitroprusside (SNP) in the same eight dogs before (control) and after CHF was produced by 23+/-3 days of rapid ventricular pacing. In five of the dogs with CHF the zero-flow pressure (P(zf)), which reflects extravascular compressive forces in the maximally vasodilated coronary circulation (adenosine) was measured and found to strongly correlate with LVEDP (r=0.91). Coronary vascular resistance (CVR) at each concentration of vasodilator before and after the development of CHF was corrected for estimated coronary back pressure: CVR=(P(Ao)-LVEDP)/CBF, where P(Ao) is mean aortic pressure. RESULTS: CHF resulted in a significant decrease in CBF and increase in heart rate and LVEDP compared to control (P<0.05). The CBF responses to ACH, BK and SNP were all significantly reduced in the failing hearts (P<0.01). However, after correction for the elevated LVEDP in CHF, the response of CVR to the endothelium-dependent vasodilators was not different from normal. CONCLUSION: These findings suggest that endothelium mediated vasodilation is preserved in CHF, but that increased extravascular compressive forces act to limit the increase in CBF.     

Effect of angioplasty-induced endothelial denudation compared with medial injury on regional coronary blood flow

To determine the effect of angioplasty-induced arterial injury on regional coronary blood flow, resting and postocclusion reactive hyperemic flows were measured in the left anterior descending (LAD) and circumflex (LCx) coronary arteries of 32 dogs after one of four interventions in the LAD with a balloon angioplasty catheter: group A, no injury; group B, endothelial denudation; group C, medial injury; group D, pretreatment with 325 mg of aspirin 2 hr before medial injury. Resting flows did not change in any group. In group C, hyperemic flow decreased in both the LAD and LCx by 15% to 20% (p less than .001) over 30 to 90 min, suggesting that a circulating substance changed coronary resistance. Histologic and ultrastructural studies of the LADs demonstrated an intact endothelial cell layer in group A, endothelial disruption with a few adherent platelets in group B, medial injury with a dense layer of adherent platelets in group C, and medial injury with a few adherent platelets in group D. Thus endothelial denudation results in relatively mild platelet deposition and no change in resting or hyperemic coronary blood flow. In contrast, medial injury results in relatively marked platelet deposition and a significant decrease in hyperemic flow, both of which are prevented by platelet inhibition with aspirin.     

Hemodynamic significance of the length of a coronary arterial narrowing

The hemodynamic significance of the length of a coronary arterial narrowing is unclear. Accordingly, the influence of the length of a given coronary narrowing on coronary hemodynamic responses was studied in 14 dogs. Recordings were made as short fixed diameter reductions were progressivley lengthened to 5, 10 and 15 mm by the addition of plastic occluders. Resting coronary blood flow decreased and pressure gradients developed across short (snare) narrowings greater than 80 percent (critical stenosis). Short 40 to 60 percent narrowings had no significant resting hemodynamic influence, but increasing their length to 10 and 15 mm consistently resulted in significant pressure gradients and flow reductions. Reactive hyperemic coronary blood flow expressed as repayment of flow debt (after 10 seconds of coronary occlusion) decreased progressively as these narrowings were lengthed. The effect of 15 mm long narrowings on resting and reactive hyperemic flows was similar to that of short 90 percent narrowings. These data indicate that there is uncertainty about the significance of coronary diameter reductions previously considered hemodynamically unimportant. In our studies, significant changes in resting and reactive hyperemic coronary flows and resting pressure gradients occurred as the length of a given degree of narrowing was increased.