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Relationship between coronary flow and adenosine release during severe and mild hypoxia in the isolated perfused rat heart with special reference to time-course change (1987)

Ishibashi, Takaharu ; Hara, Akiyoshi ; Abiko, Yasushi

Springer

Heart and vessels 3 (1987), S. 113-121

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ISSN: 1615-2573

Keywords: Heart ; Coronary flow ; Adenosine ; Lactate ; Myoglobin ; Oxygen ; Hypoxia

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The contribution of endogenous adenosine to coronary vasodilation induced by global myocardial hypoxia was examined. In isolated rat hearts perfused by means of Langendorff's technique, the relationship between chronological changes in coronary flow and adenosine release during hypoxia was analyzed. The oxygenation level of myoglobin (MbO2), myocardial oxygen uptake, lactate release, and left ventricular pressure (LVP) was also measured. Adenosine was determined by radio-immunoassay, and the MbO2 levels by the optical method. Severe hypoxia (20% O2+75% N2+5% CO2) increased coronary flow, adenosine release, and lactate release and decreased both myocardial oxygen uptake and LVP. Mild hypoxia (50% O2+45%N2+5%CO2) also increased coronary flow, adenosine release, and lactate release, while it affected neither myocardial oxygen uptake nor LVP. These results suggest that the oxygen supply is compensated by an increase in coronary flow in mild hypoxia, whereas this does not occur in severe hypoxia. Changes in MbO2 were the reverse of those in coronary flow during severe hypoxia, confirming that a decrease in intracellular oxygen correlates well with an increase in coronary flow. The pattern of changes in adenosine release, however, was not identical with that in coronary flow in severe and mild hypoxia, indicating that there is no significant relationship between coronary flow and adenosine release in either severe or mild hypoxic hearts. These findings suggest that adenosine is not the only metabolic mediator of regulation of coronary flow in hypoxic hearts.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02058786

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Effect of diltiazem on the oxymyoglobin level of myocardial cells in the isolated, perfused rat heart during hypoxia (1990)

Matsumura, Hisao ; Hara, Akiyoshi ; Abiko, Yasushi

Springer

Cardiovascular drugs and therapy 4 (1990), S. 719-722

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ISSN: 1573-7241

Keywords: diltiazem ; oxymyoglobin ; hypoxia ; isolated heart ; Langendorff perfusion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effect of diltiazem on the oxymyoglobin level was studied in the isolated rat heart during hypoxia. The heart was perfused with Krebs-Henseleit solution equilibrated with a gas mixture containing 95% O2+5% CO2 (normoxic perfusion solution) at a constant flow rate (9 ml/min) according to Langendorff's method. All the hearts were paced at 300 beats/min. The myocardial oxymyoglobin level (i.e., intracellular oxygen level) of the left ventricular surface was continuously measured by means of an optical technique. Diltiazem (infused into the aortic cannula for 10 minutes at concentrations of 0.72, 2.41, or 4.82 μM, expressed as the final concentration in the solution) decreased, the left ventricular pressure (LVP) and perfusion pressure (PP) dose dependently, and did not change the oxymyoglobin (MbO2) level during normoxic perfusion. Hypoxic perfusion (using a gas mixture containing 30% O2+5% CO2+65% N2) decreased the MbO2, LVP, and PP. Diltiazem (infused 5 minutes after the hypoxic perfusion) at a concentration of 2.41 or 4.82 μM increased the MbO2 level and further decreased the LVP, without affecting the PP. The low concentration (0.72 μM) of diltiazem, however, had practically no effect on these parameters. In summary, diltiazem in high concentrations decreased the LVP and increased the intracellular oxygen level of the myocardial cells during hypoxia, but not during normoxia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01856560

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