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Query: UMLS:C0085383 (
hypocapnia
)
1,697
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The present study was undertaken to clarify some of the conflicting findings of previous reports on the effect of state anxiety on cerebral blood flow (CBF). Seven subjects with simple phobia of small animals were studied to permit the generation of wide ranges of anxiety. Each subject received five positron emission tomography (PET) scans in a rest-fear-rest-fear-rest, repeated-measures paradigm. A population of eight normal controls was employed. The phobic stimuli produced significant increases in state anxiety during fear and significant differences in physiologic measurements between the fear and rest scans. Absolute global and regional CBF was significantly lower during fear scans than during rest scans; however, when
hypocapnia
resulting from anxiety-induced hyperventilation was taken into account, the pattern vanished, and all global and regional CBF differences among scans became not significant. Resting global and regional CBF values in the phobic subjects did not significantly differ from those of the normal controls. That a relationship between anxiety and CBF was not found in 35 scans among seven subjects strongly suggests that CBF changes induced by state anxiety are either not presently measurable by PET techniques or that such a relationship may not exist. These findings should also reduce concerns that subject anxiety may confound CBF measurements during routine PET scanning.
Arch
Gen
Psychiatry 1989 Jun
PMID:Positron emission tomographic evaluation of cerebral blood flow during state anxiety in simple phobia. 249 95
Infusion of sodium lactate has been shown by a number of investigators to induce panic in patients with panic disorder, but the pathophysiology underlying this phenomenon is unknown. One theory to explain lactate's anxiety-producing effects involves its ability to induce alkalosis because of metabolic conversion to bicarbonate. To test this hypothesis, we administered both sodium lactate and sodium bicarbonate infusions in counterbalanced order to patients with panic disorder. Thirteen of 22 subjects panicked in response to lactate and nine of 20 subjects panicked in response to bicarbonate. Although the rate of panic between the two infusion responses was not significantly different, several aspects of response to the two infusions indicated that lactate may be a more potent producer of anxiety than bicarbonate. An unexpected finding was that bicarbonate panickers had a reduction in arterial carbon dioxide pressure during the infusion, while bicarbonate nonpanickers had an increase in arterial carbon dioxide pressure during the infusion. Induction of hyperventilation and subsequent
hypocapnia
appears to be a common denominator between lactate- and bicarbonate-induced panic.
Arch
Gen
Psychiatry 1989 Feb
PMID:A comparison of sodium bicarbonate and sodium lactate infusion in the induction of panic attacks. 253 38
Alkalosis is prominent among the many physiologic and biochemical effects of sodium lactate infusion. Though this is partially due to the conversion of lactate to bicarbonate, the metabolic component, it may also be secondary to hyperventilation before and during the infusion, the respiratory component. We analyzed pH, carbon dioxide pressure, bicarbonate, and inorganic phosphate from patients with panic disorder and agoraphobia with panic attacks and from normal controls both before and during lactate infusion. Our findings extend earlier work demonstrating that many such patients are chronic hyperventilators. Both metabolic and respiratory alkalosis develop in all subjects during lactate infusion, but only hyperventilation-induced
hypocapnia
differentiates patients at the point of lactate-induced panic from nonpanicking patients and normal controls. Finally, low inorganic phosphate levels at baseline appear associated with patients who will panic during the subsequent lactate infusion. This last unexpected finding may reflect hyperventilation or an abnormality in intracellular glycolysis.
Arch
Gen
Psychiatry 1986 Nov
PMID:Blood gas changes and hypophosphatemia in lactate-induced panic. 309 75
We recently concluded that constriction of basilar artery due to respiration-induced
hypocapnia
in rabbits with acute metabolic alkalosis and accompanying compensatory hypercapnia was independent of NO and K(ATP) channels. Based on reports that endothelin-1-mediated hypocapnic constriction of the rabbit basilar artery in vitro, we further investigated whether the respiration-induced hypocapnic constriction was endothelin-1 mediated. Metabolic alkalosis was induced acutely following ketamine/xylazine injection. The ET(A) plus ET(B) receptor antagonist, PD145065 (1 microM), and the selective ET(A) receptor antagonist, BQ610 (3 microM), completely relaxed the hypocapnic constriction, as determined in a cranial window. Unexpectedly, the ET(B) receptor antagonists, BQ788 and RES-701-1 (3 microM), relaxed the constriction by 72.1+/-2.8% (4) and 77.2+/-8.7% (5), respectively (means+/-S.E. (n)). To investigate whether the large magnitudes of relaxation to both ET(A) and ET(B) receptor antagonists were due to nonselectivity of the antagonists, the effects of the antagonists on the constriction to exogenous endothelin-1 were evaluated. BQ610, BQ788, and RES-701-1 relaxed the 3-5 nM endothelin-1 constriction by only 64.3+/-7.6% (4), 43.5+/-8.5% (5), and 26.7+/-4.8% (3) (means+/-S.E. (n)), respectively, consistent with the selective blocking action of these antagonists. To investigate whether the greater magnitude of BQ610, BQ788, and RES-701-1 relaxation of hypocapnic constricted versus exogenous endothelin-1-constricted vessels was due to differences between constriction elicited by endogenous versus exogenous endothelin-1, the effects of the endothelin receptor antagonists on constriction to isocapnic alkaline suffusate were evaluated. PD145065 (1 microM) and 0.1 mM phosphoramidon, an endothelin-converting enzyme inhibitor, inhibited the constriction to isocapnic alkaline suffusate by 83.8+/-7.8% (6) and 74.3+/-9.7% (8) (means+/-S.E. (n)), respectively, consistent with the endothelin-1 dependency of the constriction. BQ610, BQ788, and RES-701-1 relaxed the isocapnic alkaline suffusate constriction by 74.9+/-6.7% (5), 65.5+/-6.4% (5), and 78.0+/-6.5% (4) (means+/-S.E. (n)), respectively. Thus, the relaxation profile to the selective endothelin receptor antagonists in isocapnic alkaline constricted vessels more closely approximated the relaxation profile observed in hypocapnic constricted as compared to endothelin-1-constricted vessels.
Hypocapnia
did not alter the 5 nM endothelin-1 constriction. These results suggest that, under conditions of acute metabolic alkalosis and accompanying compensatory hypercapnia, subsequent hypocapnic constriction is endothelin mediated. Both ET(A) and ET(B) receptor activation may mediate the hypocapnic constriction. The hypocapnic constriction is not due to enhanced endothelin-1 constriction and, thus, is due to the release of endothelin-1 and/or additional endothelins.
Gen
Pharmacol 2000 Dec
PMID:Reversal of hypercapnia induces endothelin-dependent constriction of basilar artery in rabbits with acute metabolic alkalosis. 1192 64
Nitric oxide (NO), a short-lived freely diffusible radical gas that acts as an important biological signal, regulates an impressive spectrum of physiological functions in vertebrates including fishes. The action of NO, however, on thyroid hormone status and its role in the integration of acid-base, osmotic and metabolic balances during stress are not yet delineated in fish. Sodium nitroprusside (SNP), a NO donor, was employed in the present study to investigate the role of NO in the stressed air-breathing fish Anabas testudineus. Short-term SNP treatment (1 mM; 30 min) interacted negatively with thyroid axis, as evident in the fall of plasma thyroxine in both stressed and non-stressed fish. In contrast, the cortisol responsiveness to NO was negligible. SNP challenge produced systemic alkalosis,
hypocapnia
and hyperglycemia in non-stressed fish. Remarkable acid-base compensation was found in fish kept for 60 min net confinement where a rise in blood pH and HCO(3) content occurred with a reduction in PCO(2) content. SNP challenge in these fish, on the contrary, produced a rise in oxygen load together with
hypocapnia
but without an effect on HCO(3) content, indicating a modulator role of NO in respiratory gas transport during stress response. SNP treatment reduced Na(+), K(+) ATPase activity in the gill, intestine and liver of both stressed and non-stressed fish, and this suggests that stress state has little effect on the NO-driven osmotic competence of these organs. On the other hand, a modulatory effect of NO was found in the kidney which showed a differential response to SNP, emphasizing a key role of NO in kidney ion transport and its sensitivity to stressful condition. H(+)-ATPase activity, an index of H(+) secretion, downregulated in all the organs of both non-stressed and stressed fish except in the gill of non-stressed fish and this supports a role for NO in promoting alkalosis. The data indicate that, (1) NO interacts antagonistically with T(4), (2) modifies respiratory gas transport and (3) integrates acid-base and osmotic actions during stress response in air-breathing fish. Collectively, this first evidence in fish indicate that NO can promote compensatory physiologic modification and that can reduce the magnitude of stress-induced acid-base and osmotic disturbance and that suggests a role for NO in the ease and ease response of this fish.
Gen
Comp Endocrinol 2013 Jan 15
PMID:Nitric oxide rectifies acid-base disturbance and modifies thyroid hormone activity during net confinement of air-breathing fish (Anabas testudineus Bloch). 2315 53
