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Query: UMLS:C0085383 (
hypocapnia
)
1,697
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Variations of arterial PCO2 and pH are known to influence myocardial blood flow (MBF) in that hypercapnia results in a coronary vasodilatation, while
hypocapnia
possibly decreases MBF. The present study was performed to examine if
hypocapnia
and hypercapnia might influence the sensitivity to exogenous administration of adenosine. Aminophylline, an
adenosine receptor
blocking agent, was administered to rule out the effect of endogenously liberated adenosine during variations of PCO2 and pH. In the last part of the study, it was examined whether verapamil, a calcium-channel blocker, might influence the MBF response to variations in PCO2 and pH. Closed-chest dogs were anaesthetized with pentobarbital, and
hypocapnia
induced by hyperventilation. Carbon dioxide was added to the inspiratory gas to create normocapnia and hypercapnia. In the control group
hypocapnia
did not significantly reduce MBF although a decrease in coronary sinus (CS) SO2 indicated a coronary vasoconstriction. During continuous adenosine infusion (7.5 +/- 0.3 mg/kg/h) which increased MBF 116% during normocapnia, creating
hypocapnia
caused a 40% decrease in MBF. Hypercapnia seemed to potentiate the vasodilating effect of adenosine. During administration of aminophylline
hypocapnia
did not cause any decrease in MBF, while hypercapnia increased MBF by 39%, and these results are in harmony with the results obtained in the control group without aminophylline. Verapamil did not result in any altered MBF response to
hypocapnia
and hypercapnia when compared to the unblocked control group. These observations do not support the idea of any major influence of the Ca2+ fluxes blocked by verapamil as the cause of MBF changes during variations in PCO2 and pH.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Adenosine modifies canine myocardial blood flow response to hypocapnia and hypercapnia, while aminophylline and verapamil do not. 312 Mar 3
Organism's resistance to acute severe hypoxia (3% O2) was studied after administration of GABA(A) receptor antagonist picrotoxin and
adenosine receptor
antagonist euphylline (aminophylline) and after neutralization of secondary
hypocapnia
by adding 7% CO2 to the hypoxic mixture. Administration of picrotoxin to anesthetized rats increased animal resistance to hypoxia. The resistance to hypoxia decreased after treatment with euphylline. Neutralization of secondary
hypocapnia
by adding 7% CO2 to the hypoxic mixture had no effect on animal lifespan.
...
PMID:Effect of picrotoxin on organism's resistance to acute severe hypoxia. 1902 62
High tidal volume ventilation is detrimental to alveolar fluid clearance (AFC), but effects of ventilation pressure (P) on AFC are unknown. In anesthetized BALB/c mice ventilated at constant tidal volume (8 ml/kg), mean AFC rate was 12.8% at 6 cmH(2)O P, but increased to 37.3% at 18 cmH(2)O P. AFC rate declined at 22 cmH(2)O P, which also induced lung damage. Increased AFC at 18 cmH(2)O P did not result from elevated plasma catecholamines, hypercapnia, or
hypocapnia
, but was due to augmented Na(+) and Cl(-) absorption. PKA agonists and beta-agonists stimulated AFC at 10 cmH(2)O P by upregulating amiloride-sensitive Na(+) transport. However, at 18 cmH(2)O P, PKA agonists and beta-agonists reduced AFC. At 15 cmH(2)O P, the AFC rate was intermediate (mean 26.6%), and forskolin and beta-agonists had no effect. Comparable P dependency of AFC and beta-agonist responsiveness was found in C57BL/6 mice. The effect on AFC of increasing P to 18 cmH(2)O was blocked by adenosine deaminase or an A(2b)-
adenosine receptor
antagonist, and could be mimicked by adenosine in mice ventilated at 10 cmH(2)O P. Modulation of adenosine signaling also resulted in altered responsiveness to beta-agonists. These findings indicate that, in the normal mouse lung, basal AFC rates and responses to beta-agonists are impacted by ventilation pressure in an adenosine-dependent manner.
...
PMID:Effect of ventilation pressure on alveolar fluid clearance and beta-agonist responses in mice. 1968 2
