UMLS:C0242706 - FACTA Search

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

The maturation of the respiratory sensitivity to CO2 was studied in three groups of anesthetized (ketamine, acepromazine) lambs 2-3, 14-16, and 21-22 days old. The lambs were tracheostomized, vagotomized, paralyzed, and ventilated with 100% O2. Phrenic nerve activity served as the measure of respiration. The lambs were hyperventilated to apneic threshold, and end-tidal PCO2 was raised in 0.5% steps for 5-7 min each to a maximum 7-8% and then decreased in similar steps to apneic threshold. The sinus nerves were cut, and the CO2 test procedure was repeated. Phrenic activity during the last 2 min of every step change was analyzed. The CO2 sensitivity before and after sinus nerve section was determined as change in percent minute phrenic output per Torr change in arterial PCO2 from apneic threshold. Mean apneic thresholds (arterial PCO2) were not significantly different among the groups: 34.8 +/- 2.08, 32.7 +/- 2.08, and 34.7 +/- 2.25 (SE) Torr for 2- to 3-, 14- to 16-, and 21- to 22-day-old lambs, respectively. After sinus denervation, apneic thresholds were raised in all groups [39.9 +/- 2.08, 40.9 +/- 2.08, and 45.3 +/- 2.25 (SE) Torr, respectively] but were not different from each other. CO2 response slopes did not change with age before or after sinus nerve section. We conclude that carotid bodies contribute to the CO2 response during hyperoxia by affecting the apneic threshold but do not affect the steady-state CO2 sensitivity and the central chemoreceptors are functionally mature shortly after birth.
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PMID:Maturation of steady-state CO2 sensitivity in vagotomized anesthetized lambs. 159 12

Ventilatory acclimatization (VA) to hypoxia alters cerebrovascular responses to arterial blood gas perturbations. For example, after VA, cerebral blood flow (CBF) is elevated, at a given arterial CO2 tension (PaCO2), compared to CBF before VA. This experiment examined the effects of VA to 72 h of normobaric hypoxia [arterial O2 tension (PaO2) approx. 40 mmHg, O2 saturation in arterial blood approx. 50%] on total and regional cerebrovascular resistance (CVR and rCVR) and cerebral O2 extraction fraction (OEF) in 32 conscious sheep. Four different O2-CO2 gas combinations were sequentially administered to each sheep before and after VA. CVR and rCVR were calculated from CBF (radiolabeled microspheres) and arterial and cerebral downstream pressures; OEF was calculated from arterial and cerebral venous O2 contents. After VA, during hyperoxia, CVR and rCVR tended to be lower during both hypocapnia and hypercapnia. During hypoxia, although CVR and rCVR were slightly less during hypocapnia, CVR and rCVR during hypercapnia were surprisingly increased. The post-VA increases in mean CVR and mean rCVR during hypoxic gas combinations differed from the post-VA decreases during hyperoxic gas combinations (0.04 less than or equal to P less than or equal to 0.11). In contrast, although VA decreased OEF during three of four gas combinations (P less than or equal to 0.003), there was a greater mean post-VA decrease in OEF during hypercapnic gas combinations than during hypocapnic gas combinations (P = 0.025); decreases in OEF were correlated with decreases in cerebral O2 consumption. The post-VA CVR responses may reflect altered neurocirculatory control by the arterial chemoreflex; the OEF responses suggest relative cerebral hyperperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acclimatization to hypoxia alters cerebral convective and diffusive O2 delivery. 161 32

We studied the effect of systemic hypoxia on intraretinal pH in the intact cat eye using double-barreled H(+)-sensitive microelectrodes. Hypoxia in the dark further acidified the extracellular space surrounding rods in the distal retina and this effect was maximal in the outer nuclear layer (ONL). An acidification occurred in response to essentially any decrease in PaO2 below the normoxic level. Light-evoked alkalinizations in the ONL were larger in amplitude during hypoxia than in normoxia and this difference increased with the severity of hypoxia. Background illumination suppressed the hypoxic acidification of the ONL, completely inhibiting it at rod saturating intensities, at levels of hypoxia down to PaO2s of 40 mmHg. Systemic hyperoxia produced a small alkalinization in the ONL, and a reduction in the amplitude of the light-evoked alkalinizations. This suggests that systemic hyperoxia can partially suppress the ongoing glycolysis of dark-adapted rods. Changes in blood flow during hypoxia also altered intraretinal pH. Hypoxia led to an alkalinization in the choroid in both dark and light adaptation that spread into the distal retina. This alkalinization is most likely caused by the increase in CO2 removal that occurs as systemic blood pressure, and as a consequence, choriocapillaris blood flow increase during hypoxia. The alkalinization attenuated the acidification that was observed outside rods during hypoxia. There was also an alkalinization of the proximal portion of the retina, which spread into the vitreous. This alkalinization was attributed to the autoregulatory increase in blood flow that occurs in the retinal vessels during hypoxia. These findings provide further evidence for the hypothesis that the energy metabolism of dark-adapted rods is exquisitely sensitive to systemic hypoxia so that any small decrease in PaO2 increases rod glycolysis. Rod-saturating illumination can completely suppress this increase in glycolysis for all but severe hypoxia. An increase in blood flow in the choriocapillaris during hypoxia appears to mitigate the effects of hypoxia on the distal retina.
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PMID:Effects of systemic hypoxia on pH outside rod photoreceptors in the cat retina. 162 54

Hyperoxia has previously been found to increase metabolic rate (oxygen consumption [VO2] and CO2 production [VCO2]) in newborn mammals. We asked whether the same occurs in the newborn infant. Breathing pattern was measured in 25 full-term infants, 1 to 2 days of age, from the spirometric record obtained with a pneumotachograph attached to a face mask. Concentrations of O2 and CO2 were continuously measured at the mouth; VO2 and VCO2 were computed as the product of VE and the difference between inspired and expired concentration of the respective gases, 5 min of air (FIO2 = 0.21) and 5 min of O2 (FIO2 = 1). A bias flow through the mask and pneumotachograph delivered the inspired gas and eliminated the effects of the instrumental dead space. In neither case did measurements at 1 min significantly differ from those taken at 5 min. In hyperoxia VE increased in 22 of the 25 infants, in average +18% (p less than 0.001, paired two-tailed t test). Because of a rise in tidal volume (+35%, p less than 0.001) and a decrease in breathing rate (-11%, p less than 0.005) alveolar ventilation (VA) increased by about 58% (p less than 0.001). VO2 and VCO2 increased by 25% and 17%, respectively (p less than 0.001). The rise in VO2 was too large to be explained by the greater respiratory work of the hyperventilation, whereas that of VCO2 was not large enough to fully explain the increase in VA. We conclude that in newborn humans, as in other newborn species, the normoxic metabolic rate seems to be limited by the availability of O2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ventilatory and metabolic responses to acute hyperoxia in newborns. 162 93

We assessed the kinetics of hyperoxia-induced prostaglandin E2 (PGE2) production by cultured rabbit tracheal epithelial (TE) cells with different inherent capacities to generate PGE2 and the role of endogenous PGE2 production in protecting these cells from hyperoxic injury. Rabbit TE cells grown to confluence with or without lipid supplements [0.1% Excyte III (Miles-Pentex) and 1 microM arachidonic acid] were exposed for 2 h to control (5% CO2/air) or hyperoxic (5% CO2/90% O2) atmospheres at a gas-fluid interface. Serial cell culture effluents collected during exposure were analyzed for PGE2 by enzyme-linked immunoassay. Basal PGE2 production by lipid-supplemented cells was approximately 3-fold greater than that by unsupplemented cultures (p less than 0.01). In lipid-supplemented cells, PGE2 production doubled after 15 min of hyperoxic exposure (p less than 0.05) and then declined to approximately 50% of initial levels, whereas exposure to 5% CO2/air did not significantly change PGE2 production. In unsupplemented cells, neither control nor hyperoxic exposure altered PGE2 production. Hyperoxia-exposed TE cells had decreased ability to convert 10 microM exogenous arachidonic acid to PGE2, suggesting hyperoxia-induced inhibition of the enzymes involved in PGE2 synthesis. Lipid-supplemented cells were less susceptible to hyperoxic injury than unsupplemented monolayers, as evidenced by increased viability (trypan blue exclusion) and decreased generation of lipid peroxides (thiobarbituric acid reactive substances). Addition of exogenous PGE2 to unsupplemented cultures at concentrations that were produced by lipid-supplemented cells (2 ng/mL every 15 min) during hyperoxic exposure eliminated these differences in hyperoxia-induced lipid peroxidation and cytotoxicity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prostaglandin E2 attenuates hyperoxia-induced injury in cultured rabbit tracheal epithelial cells. 163 50

Neuroendocrine hamster lung tumors, induced by exposure to 60% hyperoxia and subcutaneous administration of the tobacco-specific nitrosamine 4-(methylnitrosamino)-l-(3-pyridyl)-l-butanone (NNK) for 12 weeks, were placed in cell culture. By subsequent selective transfer of epithelial cells and maintenance in an atmosphere of 8% CO2, cell lines with characteristics of neuroendocrine cells were established. The neuroendocrine markers expressed by these cell lines included electron dense neuroendocrine secretion granules as well as secretion of calcitonin and mammalian bombesin. In keeping with data previously reported for a human neuroendocrine lung tumor cell line, nicotine, acetylcholine, and mammalian bombesin (MB) acted as strong growth factors in these neuroendocrine hamster tumor lines. The mitogenic effect of nicotine and acetylcholine was abolished by nicotinic receptor inhibition while the effects of mammalian bombesin were inhibited by an antagonist of MB receptors. Our data suggest that a receptor-mediated mitogenic effect of nicotine on neuroendocrine lung cells may be instrumental in the induction of smoking-associated small cell lung cancer.
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PMID:Nicotine, acetylcholine and bombesin are trophic growth factors in neuroendocrine cell lines derived from experimental hamster lung tumors. 169 39

In anaesthetized rats, ventilatory stimulation induced by phentolamine, an alpha sympatholytic agent, emphasizes the role of some adrenergic mechanisms in the control of the respiratory centres activity. Phentolamine (5 and 10 mg.kg-1, iv) stimulates ventilation after a 4 s latency, tidal volume and respiratory rate being both increased. A same response can also be provoked 10 min later, by a second identical iv administration, systemic blood pressure remaining then stable at its previous low level. Hyperventilation is also observed when phentolamine is injected in totally denervated rats, without any remaining baro- or chemosensitivity. Stimulation is thus due to a central activity in relation with the release of inhibitory influences. Phentolamine also causes hyperventilation after prazosin pretreatment indicating that the alpha 1 adrenergic blockade is not involved in the post-phentolamine stimulation. This is an alpha 2 adrenergic transmission dependent mechanism. Variation of the systemic blood pressure is not the main mechanism involved in the hyperventilation induced by phentolamine. Meanwhile, baroreceptor activity modulates the central response to the drug, as shown by the negative influence of the post-vasopressin arterial hypertension. Hyperoxia is also a modulating factor acting by two ways: an inhibition of the peripheral chemoreceptors activity is added to an arterial hypertension. On the other side, activation of these chemoreceptors by almitrine bismesilate increases the respiratory responses to phentolamine. As already shown by one of us (Lagneuax, 1986), phentolamine pretreated rats are more responsive to hypoxia and to almitrine. Moreover, these phentolamine pretreated rats are protected against cardiovascular collapses and against apnea, frequently observed during hypoxia without CO2 compensation.
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PMID:[Alpha 2 adrenergic control of ventilation in the rat]. 170 84

We studied the peripheral ventilatory response dynamics to changes in end-tidal O2 tension (PETO2) in 13 cats anesthetized with alpha-chloralose-urethan. The arterial O2 tension in the medulla oblongata was kept constant using the technique of artificial perfusion of the brain stem. At constant end-tidal CO2 tension, 72 ventilatory on-responses due to stepwise changes in PETO2 from hyperoxia (45-55 kPa) to hypoxia (4.7-9.0 kPa) and 62 ventilatory off-responses due to changes from hypoxia to hyperoxia were assessed. We fitted two exponential functions with the same time delay to the breath-by-breath ventilation and found a fast and a slow component in 85% of the ventilatory on-responses and in 76% of the off-responses. The time constant of the fast component of the ventilatory on-response was 1.6 +/- 1.5 (SD) s, and that of the off-response was 2.4 +/- 1.3 s; the gain of the on-response was smaller than that of the off-response (P = 0.020). For the slow component, the time constant of the on-response (72.6 +/- 36.4 s) was larger (P = 0.028) than that of the off-response (43.7 +/- 28.3 s), whereas the gain of the on-response exceeded that of the off-response (P = 0.031). We conclude that the ventilatory response of the peripheral chemoreflex loop to stepwise changes in PETO2 contains a fast and a slow component.
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PMID:Dynamic response of the peripheral chemoreflex loop to changes in end-tidal O2. 175 8

In awake lambs we investigated the role of the peripheral chemoreceptors in producing dynamic ventilatory (VE) responses to CO2. The immediate VE response, within 15 s, to transient CO2 inhalation was studied in two groups: 1) five lambs before carotid denervation and 2) the same lambs after carotid denervation. The time course of VE responses during the first 60 s after a step change to 8% inspired CO2 was also studied in lambs after carotid denervation and in a group of six carotid body-intact lambs 10-11 days of age. Acute CO2 responses were assessed using step changes to various concentrations of CO2 + air and CO2 + O2, while VE was recorded breath by breath. Intact lambs exhibited a brisk VE response to step changes in CO2, beginning after 3-5 s. Hyperoxia altered but did not suppress the dynamic VE CO2 response when the carotid chemoreceptors were intact. Carotid denervation markedly reduced the VE response during the first 25 s after a CO2 step change, revealing the time delay required for the central chemoreceptors to produce an effective VE response. The residual VE response remaining after CD was thought to be mediated by the remaining aortic body chemoreceptors and was eliminated by adding O2 to the CO2 challenges. However, after carotid denervation, even with CO2 + hyperoxia, the onset of a small tidal volume response was apparent by 10-12 s.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dynamic ventilatory responses to CO2 in the awake lamb: role of the carotid chemoreceptors. 177 13

1. Ventilation has been studied during hypocapnia produced by passive mechanical ventilation in ten normal human subjects. 2. During wakefulness, disconnection of the ventilator led to inconsistent apnoea of only brief duration. During sleep, at a similar degree of hypocapnia, disconnection of the ventilator led more consistently to apnoea which was also of much longer duration; the deeper the sleep stage, the longer the apnoea. 3. The resumption of breathing during sleep could precede or follow arousal or be unaccompanied by arousal; in the absence of prior arousal, the evidence suggests that a starting end-tidal CO2 pressure (PET, CO2) less than 41 mmHg could result in an apnoea during sleep stages I and II. 4. Subjects did not report any common sensation which led them to breathe following an apnoea whilst awake. 5. Prior hyperoxia in one subject prolonged the apnoea duration in both slow-wave sleep and rapid eye movement sleep. 6. The results are interpreted as showing that even during light sleep, the maintenance of the respiratory rhythm is critically dependent on the arterial CO2 and O2 tensions. During wakefulness, other behavioural drives, which may not reach consciousness, supervene.
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PMID:The influence of induced hypocapnia and sleep on the endogenous respiratory rhythm in humans. 180 60

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