Add to ORKGThis study was designed to define more accurately the respective influences of perfusion pressure and flow on coronary resistance. Resistance in a coronary branch, perfused at constant flow, was reduced immediately following temporary perfusion arrest. Large epicardial arteries did not appear to take part in this reaction. In the first 10 to 15 seconds after flow was restored, resistance for that flow was uninfluenced by the duration of the preceding perfusion arrest. That mechanism which caused coronary resistance to fall as a result of metabolic factors, such as reduced availability of oxygen, was thus maximally activated. By observing the relationship of coronary resistance to perfusion pressure at this time, it could be shown that resis...
SUMMARY The effects of coronary pressure on coronary stenosis resistance were studied in 13 open-che...
SUMMARY Displacement of the left ventricular diastolic pressure-dimension relationship (change in co...
Animal experiments have shown that the coronary circulation is pressure distensible, i.e., myocardia...
When the isolated heart is perfused with a constant flow, the perfusion pressure (PI) can be conside...
The effect of the heart rate and myocardial contractile force on the extravascular resistance to blo...
The blood vessels that run on the surface of the heart and through its muscle are compliant tubes th...
Coronary blood flow can always be matched to the metabolic demand of the myocardium due to the regul...
SUMMARY. We analyzed the relationship between diastolic coronary artery pressure and flow in the can...
Our understanding of human coronary physiological behaviour is derived from animal models. We sought...
Coronary blood flow can always be matched to the metabolic demand of the myocardium due to the regul...
SUMMARY. Under certain conditions, a progressive increase in vascular resistance occurs within ische...
Experiments were performed to assess the role of extravascular compression (EVC) in the regulation o...
SUMMARY. The effects of coronary capacitance on instantaneous pressure-flow (P/F) relationships were...
Coronary stenosis is one of the most common heart diseases. Though not much is known concerning the ...
• Autoregulation is the term applied to the mechanism (s) which maintain blood flow through an organ...
SUMMARY The effects of coronary pressure on coronary stenosis resistance were studied in 13 open-che...
SUMMARY Displacement of the left ventricular diastolic pressure-dimension relationship (change in co...
Animal experiments have shown that the coronary circulation is pressure distensible, i.e., myocardia...
When the isolated heart is perfused with a constant flow, the perfusion pressure (PI) can be conside...
The effect of the heart rate and myocardial contractile force on the extravascular resistance to blo...
The blood vessels that run on the surface of the heart and through its muscle are compliant tubes th...
Coronary blood flow can always be matched to the metabolic demand of the myocardium due to the regul...
SUMMARY. We analyzed the relationship between diastolic coronary artery pressure and flow in the can...
Our understanding of human coronary physiological behaviour is derived from animal models. We sought...
Coronary blood flow can always be matched to the metabolic demand of the myocardium due to the regul...
SUMMARY. Under certain conditions, a progressive increase in vascular resistance occurs within ische...
Experiments were performed to assess the role of extravascular compression (EVC) in the regulation o...
SUMMARY. The effects of coronary capacitance on instantaneous pressure-flow (P/F) relationships were...
Coronary stenosis is one of the most common heart diseases. Though not much is known concerning the ...
• Autoregulation is the term applied to the mechanism (s) which maintain blood flow through an organ...
SUMMARY The effects of coronary pressure on coronary stenosis resistance were studied in 13 open-che...
SUMMARY Displacement of the left ventricular diastolic pressure-dimension relationship (change in co...
Animal experiments have shown that the coronary circulation is pressure distensible, i.e., myocardia...