ROLE OF MYOCARDIAL OXYGEN AND CARBON-DIOXIDE IN CORONARY AUTOREGULATION

被引:25
作者
BROTEN, TP [1 ]
FEIGL, EO [1 ]
机构
[1] UNIV WASHINGTON, SCH MED, DEPT PHYSIOL & BIOPHYS, SEATTLE, WA 98195 USA
来源
AMERICAN JOURNAL OF PHYSIOLOGY | 1992年 / 262卷 / 04期
关键词
AUTOREGULATION; CORONARY BLOOD FLOW; MYOCARDIAL OXYGEN CONSUMPTION;
D O I
10.1152/ajpheart.1992.262.4.H1231
中图分类号
Q4 [生理学];
学科分类号
071003 ;
摘要
Myocardial oxygen (PO2) and carbon dioxide tensions (P(CO2)) are likely mediators of the local control of coronary blood flow. A previous study demonstrated that myocardial PO2 and P(CO2), estimated by coronary venous values, interact synergistically to determine coronary flow. This synergistic relation was used in a prospective study to test the hypothesis that myocardial P(O2) and P(CO2) mediate changes in coronary vascular conductance during autoregulation. The left main coronary artery was pump perfused at controlled pressures in closed-chest anesthetized dogs. Autoregulation curves were obtained by increasing coronary perfusion pressure from 80 to 160 mmHg in 20-mm increments. Steady-state measurements of coronary venous P(O2) and P(CO2) and coronary conductance were obtained at each perfusion pressure. The coronary venous P(O2) and P(CO2) were used in the previously determined synergistic relation to predict the coronary vascular conductance during autoregulation. The predicted changes in coronary vascular conductance were compared with the actual changes in coronary vascular conductance for the pressure range of 80-160 mmHg. The data indicate that the synergistic interaction of oxygen and carbon dioxide accounts for approximately 23% of the change in the coronary vascular conductance during autoregulation. These results suggest that other factors are also involved in autoregulation.
引用
收藏
页码:H1231 / H1237
页数:7
相关论文
共 42 条
[1]   MICROVASCULATURE OF DOG LEFT-VENTRICULAR MYOCARDIUM [J].
BASSINGT.JB ;
YIPINTSO.T ;
HARVEY, RB .
MICROVASCULAR RESEARCH, 1974, 7 (02) :229-249
[2]  
Bauer JD, 1974, CLIN LABORATORY METH, P97
[3]  
Bayliss WM, 1902, J PHYSIOL-LONDON, V28, P220
[4]   BLOOD-OXYGEN CONTENT ESTIMATED FROM PO2, PCO2, AND PH [J].
BELANGER, SF ;
KATZ, SA ;
HUANG, AH ;
FEIGL, EO .
AMERICAN JOURNAL OF PHYSIOLOGY, 1988, 255 (06) :H1545-H1548
[5]   REGULATION OF CORONARY BLOOD FLOW [J].
BERNE, RM .
PHYSIOLOGICAL REVIEWS, 1964, 44 (01) :1-&
[6]   SYNERGISTIC ACTION OF MYOCARDIAL OXYGEN AND CARBON-DIOXIDE IN CONTROLLING CORONARY BLOOD-FLOW [J].
BROTEN, TP ;
ROMSON, JL ;
FULLERTON, DA ;
VANWINKLE, DM ;
FEIGL, EO .
CIRCULATION RESEARCH, 1991, 68 (02) :531-542
[7]   CORONARY PRESSURE-FUNCTION AND STEADY-STATE PRESSURE-FLOW RELATIONS DURING AUTO-REGULATION IN THE UNANESTHETIZED DOG [J].
CANTY, JM .
CIRCULATION RESEARCH, 1988, 63 (04) :821-836
[8]   MEASUREMENT OF MYOCARDIAL PCO2 WITH A MICRO-ELECTRODE - ITS RELATION TO CORONARY SINUS PCO2 [J].
CASE, RB ;
FELIX, A ;
WACHTER, M .
AMERICAN JOURNAL OF PHYSIOLOGY, 1979, 236 (01) :H29-H34
[9]   RELATIVE EFFECT OF CO2 ON CANINE CORONARY VASCULAR-RESISTANCE [J].
CASE, RB ;
FELIX, A ;
WACHTER, M ;
KYRIAKIDIS, G ;
CASTELLANA, F .
CIRCULATION RESEARCH, 1978, 42 (03) :410-418
[10]   RESPONSE OF CANINE CORONARY VASCULAR-RESISTANCE TO LOCAL ALTERATIONS IN CORONARY ARTERIAL P CO2 [J].
CASE, RB ;
GREENBERG, H .
CIRCULATION RESEARCH, 1976, 39 (04) :558-566