Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0242706 (hyperoxia)
5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the relationship between contractile function and intracellular pH (pHi) in the isolated rat diaphragm when superfusate PCO2 was changed during hyperoxia or hypoxia. Superfused diaphragm strips were field stimulated at 0.5 Herz, and twitch tension (TT) was recorded. The pHi was calculated from the volume distribution of a weak acid, dimethyl-oxazolidinedione. In hyperoxia, hypercapnic acidosis (pH 7.06-6.63) depressed diaphragm pHi and TT, whereas hypocapnic alkalosis (pH 7.82-8.15) increased pHi but did not significantly affect TT. TT was maximum at physiological pHi (7.06), but in hyperoxic hypercapnic muscles substantial force was still generated at pHi values as low as 6.44. Hypoxia (PO2 30-38 mm Hg) markedly reduced TT; this effect was slightly exacerbated by hypercapnia and attenuated by hypocapnia. Hypoxia lowered pHi by about 0.2 units, which was insufficient to account for the hypoxic contractile failure. Knowledge of the hyperoxic muscle TT/pHi relationship suggests that, in other contexts, caution should be exercised in attributing severe muscle fatigue or force loss to modest falls in pHi.
...
PMID:The effect of pH and hypoxia on function and intracellular pH of the rat diaphragm. 210 18

CO2 single breaths have been performed in 7 men and 7 women in conditions of normoxia (FICO2 congruent to 0.13; FIO2 congruent to 0.21; FIN2 congruent to 0.66) and of hyperoxia (FICO2 congruent to 0.13; FIO2 congruent to 0.87). Ventilatory responses of the subjects and modifications of breathing pattern in the course of the CO2 tests were also explored in the two conditions. The results (mean +/- SEM) show that, whatever the oxygenation, men and women exhibit the same ventilatory response during a CO2 test from a qualitative point of view but with a smaller intensity in women (men: 0.37 +/- 0.088 LBTPS.min-1.Torr-1; women: 0.15 +/- 0.025 LBTPS.min-1.Torr-1; p less than 0.05). Considering men and women together, CO2 tests induced an increase of minute volume VE (p less than 0.001), VT (p less than 0.01) and rate of breathing (NS) but this response is decreased in hyperoxic conditions (p less than 0.05) mainly in men (men: 0.19 +/- 0.043 LBTPS.min-1.Torr-1; women: 0.11 +/- 0.023 LBTPS.min-1.Torr-1). These results show that sensitivity to transient hypercapnia and its interaction with hyperoxia are weaker in women than in men.
...
PMID:CO2 chemoreflex drive of ventilation in man: effects of hyperoxia and sex differences. 212 2

Hypoxic vasoconstriction has been the subject of many studies, but little is known about the interaction of hypercapnia and the pulmonary circulation. We performed two haemodynamic studies on each of three patients with pulmonary vascular disease secondary to congenital heart disease. On the first occasion ventilation was inadequate due to technical problems, and the patients were therefore hypercapnic (arterial pCO2 greater than 5.3 kPa). On the second occasion, they were normocapnic. Pulmonary vascular resistance was measured on each occasion while the patients were breathing 100% oxygen (alveolar hyperoxia) and while epoprostenol (prostacyclin) was infused at doses of 5-20 ng/kg/min. Pulmonary vascular resistance was elevated in the presence of hypercapnia and, despite oxygen and epoprostenol, could not be reduced to the levels observed in the normocapnic study. We conclude that hypercapnia causes significant vasoconstriction in infants; and that epoprostenol is a relatively ineffective pulmonary vasodilator in infants who are hypercapnic due to inadequate ventilation. Where possible, respiratory acidosis should be corrected before using oxygen or epoprostenol as a pulmonary vasodilator.
...
PMID:Interactions between alveolar hypercapnia and epoprostenol on the pulmonary circulation: clinical and pharmacological implications. 213 21

Phasic contractions of the hindlimb muscles were induced in hypercapnia, hypoxia and hyperoxia. Absolute value of the lung ventilation and its kinetics depended on hypoxic and hypercapnic stimuli, reaching its maximum in their combination. Hypoxic stimulus decreased an increment of the lung ventilation and decelerated the latter's development. The interaction seems to be realized by neuronal mechanisms of dorsal respiratory nucleus. The latter is believed to play a major role in the mechanism of generation of central inspiratory activity based on respective chemoreceptor and proprioceptor afferent information.
...
PMID:[Chemoreceptor modulation of the respiratory reactions during muscle contractions in the cat]. 217 Jan 96

Three groups of 50-day-old (i.e., postpuberty) rats have been studied: controls, rats exposed to 6 days of hypoxia [inspired fraction of O2 (FIo2) = 10% O2] when newborn (Nb-Hypox), and rats exposed to the same level and duration of hypoxia after weaning (Ad-Hypox). Ventilation during normoxic breathing was higher in Nb-Hypox than in controls or Ad-Hypox. The ventilatory response to acute hypoxia (10 min of 10% O2) was about one-half in Nb-Hypox than in the other two groups. Additional measurements performed on Nb-Hypox and controls showed minimal or no differences between the two groups in the ventilatory responses to hyperoxia and hypercapnia, heart rate and blood pressure at various FIO2, and blood biochemistry. Analysis of the Hering-Breuer reflexes, during barbiturate anesthesia, suggested a decreased central inhibition on inspiratory activity in Nb-Hypox, which with a lower sensitivity to inputs from the peripheral chemoreceptors may contribute to the normoxic hyperventilation and the blunted response to acute hypoxia. The ventilatory patterns of Nb-Hypox rats bear numerous similarities with those of high-altitude natives and could suggest that the highlander's ventilatory responses are not genetic characteristics but relate to chronic hypoxia early in life.
...
PMID:Control of ventilation in adult rats hypoxic in the neonatal period. 222 Nov 51

1. Synchronization of spontaneous sympathetic discharge during the respiratory cycle was studied in the cervical and renal nerves of vagotomized, normotensive Wistar-Kyoto rats (WKYs) and age-matched spontaneously hypertensive rats (SHRs). Phrenic nerve discharge was used as an index of central inspiratory activity. 2. In normotensive Wistar-Kyoto rats depression of sympathetic activity appeared at the onset of inspiration reaching a minimum at mid-inspiration. Peak maximal sympathetic discharge corresponded to postinspiratory phase; a second increase sometimes appeared in late expiration. Variations of respiratory frequency over wide range of experimental conditions by hypoxia, hyperoxia, hyper- or hypocapnia and transection of carotid sinus nerves did not affect this pattern. 3. In SHRs the respiratory-phase-related timing of sympathetic discharge was variable. In normoxia, the maximal sympathetic activity occurred in late inspiration, preceded by short depression at early inspiration and followed by postinspiratory depression. A second increase in sympathetic activity was observed in mid-expiration. 4. The pattern of respiratory phase modulated sympathetic activity in SHRs was altered by hypoxic stimulation of the peripheral chemoreceptors. The early inspiratory depression of sympathetic activity was substantially prolonged and the maximal sympathetic discharge was shifted from inspiration to early expiration. This effect was abolished after carotid sinus nerves had been cut. 5. Hypercapnic stimulation of central chemoreceptors in SHRs with carotid sinus nerves cut did not influence the timing of the sympathetic activity in relation to the respiratory phase, though the magnitude of rhythmical sympathetic discharges was increased. 6. We discuss the possibility that altered synchronization between central respiratory drive and sympathetic neuronal system may contribute to the neurogenic mechanisms of arterial hypertension in SHRs.
...
PMID:Respiratory-related discharge pattern of sympathetic nerve activity in the spontaneously hypertensive rat. 223 3

Seven human spinal cord-lesioned subjects (SPL) underwent electrically induced muscle contractions (EMC) of the quadriceps and hamstring muscles for 10 min: 5 min control, 2 min with venous return from the legs occluded, and 3 min postocclusion. Group mean changes in CO2 output compared with rest were +107 +/- 30.6, +21 +/- 25.7, and +192 +/- 37.0 (SE) ml/min during preocclusion, occlusion, and postocclusion EMC, respectively. Mean arterial CO2 partial pressure (PaCO2) obtained from catheterized radial arteries at 15- to 30-s intervals showed a significant (P less than 0.05) hypocapnia (36.2 Torr) during occlusion and a significant (P less than 0.05) hypercapnia (38.1 Torr) postocclusion relative to a group mean preocclusion EMC PaCO2 of 37.5 Torr. Relative to preocclusion EMC, expired ventilation (VE) decreased during occlusion and increased after release of occlusion. However, changes in VE always occurred after changes in end-tidal PCO2 (mean 41 s after occlusion and 10 s after release of occlusion). In the two subjects investigated during hyperoxia, the VE and PaCO2 responses to occlusion and release did not differ from normoxia. We conclude that the data do not support mediation of the EMC hyperpnea in SPL by humoral mechanisms that others have proposed for mediation of the exercise hyperpnea in spinal cord-intact humans.
...
PMID:Ventilatory response of spinal cord-lesioned subjects to electrically induced exercise. 238 11

Contribution of autonomic nervous system activity to the heart rate and blood pressure responses during chemoreceptor excitations by systemic hypoxia and hypercapnia and to hyperoxia and hypocapnia was analyzed in the urethane-anesthetized, artificially ventilated rats. Systemic hypoxia induced a co-activation of two antagonistic nerves: an increase in cardiac sympathetic and in cardiac vagal efferent nerve discharges. Increased heart rate was due to predominance of the cardiac sympathetic over the cardiac vagal activation. In spite of a marked reflex increase in the renal and cardiac sympathetic nerve activities, the local vasodilator effect of hypoxia prevented consistent changes in arterial blood pressure. Bilateral section of the carotid sinus nerves (CSN) mostly abolished autonomic nerve responses and produced a profound decreases in the blood pressure during hypoxia. Hyperoxia elicited a pressor response due to peripheral vasoconstriction with no significant change in the autonomic nerve activities except for a decrease in the cardiac sympathetic nerve discharges. Hypercapnia significantly increased blood pressure and renal nerve sympathetic activity. In contrast to hypoxia, hypercapnia excited cardiac sympathetic and inhibited cardiac vagal activity. This reciprocal effect did not elicit neurogenic cardioacceleration, because it was masked by the local inhibitory action of CO2 on the heart rate. The increase in sympathetic activities and in blood pressure during hypercapnia persisted after bilateral CSN section indicating that the responses were mediated by central rather than by peripheral chemoreceptors. Hypocapnia produced a significant increase in cardiac vagal discharges yet a cardioacceleratory response occurred due to the local effect upon heart rate. The present results indicate that in the rat, autonomic nervous responses differ depending on the type, i.e. hypoxic or hypercapnic, chemoreceptor stimuli. Reflex heart rate and blood pressure responses do not follow the autonomic nerve activities exactly. Circulatory responses are greatly modified by local peripheral effects of hypoxic, hyperoxic, hypocapnic or CO2 stimuli on the cardiovascular system. Species differences characterizing the autonomic nerve responsiveness to chemical stimuli in the rat are described.
...
PMID:Autonomic nerve and cardiovascular responses to changing blood oxygen and carbon dioxide levels in the rat. 251 Dec 37

The ventilatory and hemodynamic responses to hypoxia, hyperoxia, and hypercapnia before and during sufentanil infusion were studied in 16 chronically tracheostomized dogs anesthetized with two concentrations, 1 and 0.5 minimal alveolar concentration (MAC) of isoflurane. Sufentanil was infused at a rate to obtain a constant end-tidal carbon dioxide (PETCO2) of approximately 50 mm Hg for each isoflurane level. Before the sufentanil infusion, the PETCO2 was increased to 50 mm Hg by adding CO2 to the inspired gas, to allow comparisons at isocapnic conditions. Sufentanil caused only minor hemodynamic changes but significantly reduced ventilation during both levels of isoflurane. The ventilatory response to hypercapnia decreased substantially, but there were no significant alterations in the ventilatory response to hypoxia. After sufentanil infusion, hyperoxia caused a larger decrease in minute ventilation and caused apnea in four dogs. These results suggest that administering sufentanil during isoflurane anesthesia causes a reduction in the contribution of the central chemoreflexes to ventilatory drive and, consequently, a relative increase in the contribution from the peripheral chemoreflexes.
...
PMID:Ventilatory and cardiovascular responses to sufentanil infusion in dogs anesthetized with isoflurane. 252 4

The hypothesis that augmentation of the carotid chemoreceptor response to hypoxia by almitrine is due in part to an increased response to CO2 was tested by using single or few fiber preparation of carotid body chemosensory fibers in 12 cats anesthetized with alpha-chloralose. To differentiate between the plausible mechanisms of effects, we also tested the responsiveness of the afferents to cyanide and nicotine before and after almitrine. After a saturation dose of almitrine (1 mg.kg-1 followed by 0.5 mg.kg-1.h-1) the chemosensory responses to CO2 strikingly increased even during hyperoxia: the afferents showing an increased transient peak activity at the onset of hypercapnia, an augmented steady-state response to CO2 stimulus, and a decreased arterial PCO2 stimulus threshold. Thus, the effect of almitrine on carotid chemoreceptor response to hypoxia could be explained, at least in part, by its multiplicative stimulus interaction with CO2. After almitrine, the chemoreceptor response to cyanide, which is dependent on arterial PO2, was not particularly augmented relative to those of nicotine. Accordingly, the O2-sensing mechanism does not appear to be the primary site of almitrine effect. The results also indicate that the site of CO2 chemoreception resides downstream from those of hypoxia.
...
PMID:Stimulus interaction between CO2 and almitrine in the cat carotid chemoreceptors. 256 54


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---