Endothelial and neuro-humoral control of coronary blood flow in health and disease

It is now known that astrocytes are not merely supporting cells but they also play an important role in neuronal funcions. Astrocytes tightly ensheat neuronal synapses and regulate the excitation of neurons by uptaking neurotransmitters; reglulate the cerebral blood flow, cerebral fluid volume and extracellular concentrations of ions. They also supply fuel in the form of lactate and provide free radical scavangers such as glutathione for active neurons. These facts indicate that impaired function of astrocytes may lead to neuronal dysfunction. After brain injury (stroke, trauma or tumors) astrocytes are swollen and release active molecules such as glutamate or free radicals resulting in neuronal dysfunction. Thus, investigation of the molecular mechanisms of astrocyte function may reveal novel targets for the development of therapeutic tools in neuronal diseases.

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METHODOLOGICAL ASPECTS OF VISUALIZATION OF CORONARY ARTERIES WITH TRANSTHORACIC ECHOCARDIOGRAPHY

Medical Visualization ◽

10.24835/1607-0763-2018-1-26-35 ◽

2018 ◽

pp. 26-35

Author(s):

Z. A. Agaeva ◽

K. B. Baghdasaryan

Keyword(s):

Blood Flow ◽

Coronary Blood Flow ◽

Coronary Arteries ◽

Transthoracic Echocardiography ◽

Second Harmonic ◽

Anatomic Reconstruction ◽

High Quality ◽

Acoustic Window ◽

Methodological Aspects

The transthoracic echocardiography made by multifrequency probes with support of the mode of the second harmonic imaging, is a competitive method for visualization of the main coronary arteries and allows to estimate coronary blood flow with high quality. Of course, the method has considerable restrictions, most important of which is the low spatial resolution of a method, due to small acoustic window. Because of this the transthoracic visualization of coronary arteries perhaps will not become the leading method of anatomic reconstruction of separately taken coronary artery and especially all coronary arteries system. However uniqueness and indisputable advantage of this method is an opportunity to noninvasively estimate a coronary blood flow both once, and in dynamics.

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Distribution of coronary blood flow during acute coronary occlusion in dogs. Effect of nicotinic acid and sodium salicylate

Scandinavian Journal of Clinical and Laboratory Investigation ◽

10.3109/00365517709101851 ◽

1977 ◽

Vol 37 (8) ◽

pp. 697-703 ◽

Cited By ~ 4

Author(s):

Harald Vik-Mo

Keyword(s):

Blood Flow ◽

Nicotinic Acid ◽

Coronary Blood Flow ◽

Coronary Occlusion ◽

Sodium Salicylate ◽

Acute Coronary Occlusion

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Direct Measurement of Instantaneous Coronary Blood Flow after Total Correction of Anomalous Left Coronary Artery

Circulation ◽

10.1161/01.cir.39.5s1.i-229 ◽

1969 ◽

Vol 39 (5s1) ◽

Cited By ~ 4

Author(s):

ROBERT L. REIS ◽

LAWRENCE SOREL COHEN ◽

DEAN T. MASON

Keyword(s):

Blood Flow ◽

Coronary Artery ◽

Coronary Blood Flow ◽

Direct Measurement ◽

Left Coronary Artery ◽

Total Correction ◽

Anomalous Left Coronary Artery ◽

Anomalous Left Coronary

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Alternation in the Coronary Blood Flow Velocity Pattern in Patients With No Reflow and Reperfused Acute Myocardial Infarction

Circulation ◽

10.1161/01.cir.94.6.1269 ◽

1996 ◽

Vol 94 (6) ◽

pp. 1269-1275 ◽

Cited By ~ 154

Author(s):

Katsuomi Iwakura ◽

Hiroshi Ito ◽

Shin Takiuchi ◽

Yoshiaki Taniyama ◽

Yoshiaki Nakatsuchi ◽

...

Keyword(s):

Myocardial Infarction ◽

Acute Myocardial Infarction ◽

Blood Flow ◽

Flow Velocity ◽

Coronary Blood Flow ◽

Blood Flow Velocity ◽

Velocity Pattern ◽

No Reflow ◽

Reperfused Acute Myocardial Infarction ◽

Coronary Blood Flow Velocity

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Effects of Elevated Coronary Sinus Pressure on Coronary Blood Flow and Left Ventricular Function

Circulation ◽

10.1161/01.cir.92.9.298 ◽

1995 ◽

Vol 92 (9) ◽

pp. 298-303 ◽

Cited By ~ 29

Author(s):

Takuya Miura ◽

Takeshi Hiramatsu ◽

Joseph M. Forbess ◽

John E. Mayer

Keyword(s):

Blood Flow ◽

Left Ventricular Function ◽

Ventricular Function ◽

Coronary Blood Flow ◽

Coronary Sinus ◽

Left Ventricular ◽

Sinus Pressure

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Contribution of extravascular compression to reduction of maximal coronary blood flow

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.1992.262.1.h68 ◽

1992 ◽

Vol 262 (1) ◽

pp. H68-H77

Author(s):

F. L. Abel ◽

R. R. Zhao ◽

R. F. Bond

Keyword(s):

Blood Flow ◽

Coronary Blood Flow ◽

Coronary Flow ◽

Perfusion Pressure ◽

Left Ventricular Pressure ◽

Coronary Perfusion Pressure ◽

Left Ventricular ◽

Ventricular Pressure ◽

Coronary Perfusion ◽

Storage Site

Effects of ventricular compression on maximally dilated left circumflex coronary blood flow were investigated in seven mongrel dogs under pentobarbital anesthesia. The left circumflex artery was perfused with the animals' own blood at a constant pressure (63 mmHg) while left ventricular pressure was experimentally altered. Adenosine was infused to produce maximal vasodilation, verified by the hyperemic response to coronary occlusion. Alterations of peak left ventricular pressure from 50 to 250 mmHg resulted in a linear decrease in total circumflex flow of 1.10 ml.min-1 x 100 g heart wt-1 for each 10 mmHg of peak ventricular to coronary perfusion pressure gradient; a 2.6% decrease from control levels. Similar slopes were obtained for systolic and diastolic flows as for total mean flow, implying equal compressive forces in systole as in diastole. Increases in left ventricular end-diastolic pressure accounted for 29% of the flow changes associated with an increase in peak ventricular pressure. Doubling circumferential wall tension had a minimal effect on total circumflex flow. When the slopes were extrapolated to zero, assuming linearity, a peak left ventricular pressure of 385 mmHg greater than coronary perfusion pressure would be required to reduce coronary flow to zero. The experiments were repeated in five additional animals but at different perfusion pressures from 40 to 160 mmHg. Higher perfusion pressures gave similar results but with even less effect of ventricular pressure on coronary flow or coronary conductance. These results argue for an active storage site for systolic arterial flow in the dilated coronary system.

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