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Query: UMLS:C0085383 (hypocapnia)
1,697 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Awake, intact dogs trained to wear a respiratory mask were studied in a hypobaric chamber at 140 m and at various stages of a 4-week exposure to 3,550 m. Resting ventilation, pulmonary gas exchanges, arterial blood gases and pH, acid-base status of the cisternal fluid (CSF) and ventilatory responses to transient O2 inhalation were measured. Attention is focussed on the time course of ventilatory acclimatization to altitude, characterized by hyperventilation with hypocapnia and a consequent increase of arterial Po2. (1) 75 percent of the increment in pulmonary ventilation due to hypoxia was achieved in 30 minutes; (2) the further increase, 25 percent of the total hyperventilation, was complete after 3 hr, with a corresponding Pco2 drop and pH increase in blood and CSF, and an increase in Pao2; (3) the secondary increase in ventilation, beyond the acute exposure period, was not related to return of [H+] in CSF towards control value; (4) the large transient decrease of ventilation following brief oxygen inhalation demonstrated a strong arterial chemoreflex drive in acclimatized animals. The extremely rapid ventilatory acclimatization to moderately high altitude in normal dogs appears to be mediated not by CSF hydrogen ion concentration but by a strong chemoreflex drive of ventilation.
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PMID:Blood and CSF acid-base changes, and rate of ventilatory acclimatization of awake dogs to 3,550 m. 24 Nov 5

Pentobarbital-anesthetized greyhounds were passively hyperventilated using intermittent positive-pressure breathing (IPPV) and the effects of raised airway pressure, accompanied by hypocapnia and then by normocapnia, on liver blood flow and oxygen consumption were studied. Electromagnetic flowmeters were used to measure hepatic arterial, portal venous, and splenic venous blood flow. Studies were carried out at three levels of raised airway pressure, both at normocapnia and hypocapnia. It was found that hypocapnic hyperventilation produced a decrease in portal venous and hepatic arterial blood flow. Normocapnic hyperventilation resulted in a restoration of portal venous blood flow but with a further decrease in hepatic arterial blood flow. A decrease in oxygen consumption with hypocapnia, returning to control values with normocapnia, was seen. It is suggested that the reduction in liver blood flow and oxygen consumption seen with passive hyperventilation is chiefly an effect of hypocapnia and is largely reversed by restoration of normocapnia.
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PMID:Liver blood flow and oxygen consumption during hypocapnia and IPPV in the greyhound. 38 Dec 63

In progressive exercise increased tidal volume (VT) accompanies increased ventilation (VE) until a VT plateau is reached. We observed in 13 subjects a correspondence between the arrival of the VT plateau and the anaerobic threshold (AT). To examine this association between a mechanical event (the VT plateau) and a metabolic event (the AT), we changed those variables that change at the AT and looked for changes in VT. We found in 13 subjects that CO2 addition to prevent alveolar hypocapnia during cycle ergometer exercise progressing to exhaustion in 12-15 min significantly elevated the VT plateau (mean increase 4.4%; P less than 0.01) as compared with a spontaneous test that induced a mean end-tidal carbon dioxide tension fall of 5.5 Torr. This VT increase was mediated by a significant increase in inspiratory time (TI; P less than 0.02); both the ratio of TI to the total breath duration (TI/Ttot) and the mean rate of inspired airflow (VT/TI) were unchanged at matched VE. Changing other variables known to change at the AT--blood lactate ion concentration and alveolar oxygen tension--left ventilatory pattern unchanged. These results suggest that hypocapnia in severe exercise measurably lowers the VT plateau in normal man.
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PMID:CO2 and exercise tidal volume. 42 48

To clarify the problems of altitude tolerance in birds, we studied the combined effect of hypocapnia and hypoxia on cerebral blood flow (CBF) in ducks. CBF was measured by the xenon clearance method. Normocapnic hypoxia causes CBF to increase when the arterial O2 tension (PaO2) falls below 60--70 mmHg. Hypocapnic hypoxia significantly shifts the blood flow curve so that blood flow does not increase until a lower PaO2 (50--60 mmHg) is reached. This gives the appearance that hypocapnia suppresses the hypoxia-induced increase in CBF. However, due to the Bohr effect, the hypocapnic blood contains significantly more O2 than does the normocapnic blood at the same PaO2. Therefore, when CBF is expressed as a function of O2 content, rather than PO2, CBF in the hypocapnic group does not differ significantly from the CBF in the normocapnic group. We interpret this to mean that because of the significantly greater oxygen content of the hypocapnic blood at a given PaO2, the degree of hypoxia experienced by these brains is not as severe as that experienced by the normocapnic brains.
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PMID:Avian cerebral blood flow: influence of the Bohr effect on oxygen supply. 44 97

Eight awake cats have been studied before and after carotid denervation during air and oxygen breathing, and during hypercapnia. Analysis of the variables that characterize the spirogram shows that carotid denervation consistently results in a decrease of the mean inspiratory flow (VT/TI), causing a decrease in tidal volume (VT) and ventilation with a relative alveolar hypercapnia. In carotid-denervated animals, inhalation of oxygen results in an increase in ventilation due to an augmentation of VT/TI and VT and a relative hypocapnia. TI does not significantly change in the different conditions whereas TE is significantly affected. TE seems therefore to be more closely related to the rate of rise of inspiratory activity than to inspiratory duration.
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PMID:Effects of carotid body denervation on respiratory pattern of awake cats. 46 36

We examined the bronchoconstriction produced by airway hypocapnia in normal subjects. Maximal expiratory flow at 25% vital capacity on partial expiratory flow-volume (PEFV) curves fell during hypocapnia both on air and on an 80% helium- 20% oxygen mixture. Density dependence also fell, suggesting predominantly small airway constriction. The changes seen on PEFV curves were not found on maximal expiratory flow-volume curves, indicating the inhalation to total lung capacity substantially reversed the constriction. Pretreatment with a beta-sympathomimetic agent blocked the response, whereas atropine pretreatment did not, suggesting that hypocapnia affects airway smooth muscle directly, not via cholinergic efferents.
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PMID:Pattern and mechanism of airway response to hypocapnia in normal subjects. 46 77

The responses to hypocapnia and to hypercapnia of both the systemic and the coronary circulations have been studied in the dog during intermittent positive pressure ventilation under halothane anaesthesia. In the absence of significant variations of myocardial contractility, the reduction of cardiac output, because of hypocapnia, was determined by the increase of systemic vascular resistance, while the increase of cardiac output because of hypercapnia was determined by an increase of heart rate without change of stroke volume. The alterations of coronary blood flow (reduction following hypocapnia, augmentation following hypercapnia) were considerably larger than the changes of cardiac output and of myocardial oxygen consumption. Such disparity between oxygen supply and demand, together with the effect of pH and PCO2 on the oxyhaemoglobin dissociation curve led to a marked reduction of coronary sinus PO2 in response to hypocapnia and a marked increase of coronary sinus PO2 in response to hypercapnia. The data suggests that PCO2 (or respiratory alterations of pH) may have a direct effect on the regulation of coronary blood flow. The low coronary sinus PO2 observed at hypocapnia may suggest the risk of myocardial ischaemia.
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PMID:Effect of CO2 on the systemic and coronary circulations and on coronary sinus blood gas tensions. 49 91

The reactivity of subpleural strips of lung parenchyma reflects primarily the tone of the smooth muscle in the peripheral airways. Lung strips taken from ten dogs relaxed when the oxygen level in the gas bubbling through the bath was reduced from 95% to 18%. Subsequent hypocapnia (carbon dioxide reduced from 5% to 0%) induced contraction of all strips. These changes were reversed when the oxygen or carbon dioxide tensions were restored to control levels. Addition of either indomethacin or meclofenamate, two chemically dissimilar inhibitors of prostaglandin synthetase, reduced the resting tone in each of six strips and prevented the hyperoxic constriction which was observed in paired, control strips (oxygen increased from 18% to 95%). Blockers of histamine and catecholamines had no effect. The reactivity of the distal airways to changes in gas tension provides a mechanism by which ventilation and perfusion can be matched. The action of indomethacin and meclofenamate indicates that a prostaglandin-like substance may be involved in the maintenance of distal airway tone and in the constriction produced by hyperoxia. The addition of prostaglandin F2 alpha or E1, after meclofenamate, in a further nine pairs of strips did not restore the hyperoxic constriction. This suggests that prostaglandins may mediate, rather than merely facilitate, the response.
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PMID:Distal airway responses to changes in oxygen and carbon dioxide tensions. 52 47

Oxygen uptake (VO2), expired volume (VE), and arterial blood gases were studied in awake, unrestrained rats over 14 days of hypobaric hypoxia (4,300 m altitude) and upon return to acute normoxia. Control data (at 250 m) showed (mean +/- 95% confidence limits (CL)) arterial oxygen pressure (Pao2) = 85.5 +/- 1.1; arterial carbon dioxide pressure (PaCO2) = 39.8 +/- 0.5; arterial pH pHa) = 7.430 +/- 0.009; VE = 78 +/- 3; VO2 = 2.36 +/- 0.09 ml.min-1.100 g-1; and dead space volumetidal volume ratio (VD/VT) = 0.37 +/- 0.04. During 14 days at 4.300 m the rat showed: a) a constant PaO2 (50-52 Torr); b) a time-dependent hyperventilation (e.g., PaCO2 = 30.2 +/- 1.1 at 1 h of hypoxia, 24.7 +/- 1.3 at day and 21.9 +/- 1.0 at 14 days); c) an increase in VE (85% of control) due to both frequency (33%) and VT (40%); d) a continued but reduced hyperventilation upon acute return to normoxia after 5 h to 14 days at 4,300 m; e) a 24% fall in VO2 after 1 h of hypoxia which returned to control by 4 days at 4,300 m; and f) a rise in pHa to 7.52 after 5 h of hypoxia, which fell to 7.45 by 14-day hypoxia. The rat's marked ventilatory response and changing VO2 during acute hypoxia clearly differs from the human response to sojourn at 4,300 m. However, the progressive and sustained hypocapnia during hypoxic exposure and the continued hyperventilation with acute normoxia in the rat provided essential, perhaps unique characteristics for an animal model of human ventilatory acclimatization.
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PMID:Rat as a model for humanlike ventilatory adaptation to chronic hypoxia. 64 77

A double-blind crossover trial was conducted in 10 asthmatic patients for comparison of fenoterol with salbutamol, in 12 other asthmatic patients for comparison of reproterol with salbutamol, and in 15 other asthmatic patients for comparison of terbutaline with salbutamol. The following doses were given: 1.25 mg fenoterol, 2.5 mg reproterol, 2.5 mg terbutaline and 1.25 mg salbutamol. 5 drops of each of the inhalation solutions (in 2 ml of saline) were aerosolized by a powered machine and inhaled for 15 min. FEV1 was measured before, and 15 and 45 min after inhalation. Immediately before FEV1 the following parameters for side effects were also determined: 1. heartbeats per min, systolic and diastolic blood pressure; 2. minute ventilation, arterial PCO2 and oxygen consumption; 3. arterial SO2, PO2 and the alveolar-arterial O2-gradient (AaDO2). To estimate the selectivity of each of the 3 betastimulators the ratio (formula: see text) was established for each parameter and compared to that obtained with salbutamol. In further steps the ratio of all parameters for side effects was shown, then only that of the 3 most important side effects tachycardia, hypocapnia (PaCO2) and hypoxemia (PaO2). The following order of selectivity was found: 1. salbutamol, 2. fenoterol, 3. terbutaline, 4. reproterol.
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PMID:[The bronchospasmolytics salbutamol, fenoterol, terbutaline and reproterol. Their effects and side effects in asthmatics after inhalation with an electric nebulizer]. 67 13

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