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

We studied the effects of hypocapnia and methacholine on small airways resistance (Rsaw) and collateral ventilation in anesthetized paralyzed dogs. The animals were ventilated with air while either 10% CO2 or air (hypocapnia) was infused through a segment obstructed with a fiber-optic bronchoscope. Measurements were made before and after instillation of methacholine into the obstructed segment. Collateral resistance (Rcoll) and Rsaw increased with hypocapnia and methacholine. The time constant for collateral ventilation increased with hypocapnia, but did not change with methacholine because of decreases in the compliance of the obstructed segment. We conclude that collateral channels respond to methacholine and hypocapnia in a manner similar to small airways and that local parasympathomimetic stimulation, unlike lung deflation does not increase the time constant for collateral ventilation.
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PMID:Effects of methacholine and hypocapnia on airways and collateral ventilation in dogs. 46 15

A marked increase in the prostaglandin E (PGE) content in the cerebrospinal fluid (CSF) and the arterial blood of cats was observed under conditions of 3-minute hypocapnia. During 30-minute hypocapnia a restoration of the initial PGE level was seen. The PGE content in CSF increased while in the arterial blood it decreased comparatively to the control under conditions of 3-minute hypercapnia. In 30-minute hypercapnia the PGE amount in the CSF and the blood dropped in comparison with 3-minute hypercapnia being below the basal level in the blood. It is suggested that in hypocapnia PGE should limit its constrictive effect on the cerebral vessels while under conditions of hypercapnia they are to promote the realization of the cerebral vessel reaction to CO2.
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PMID:[Variations in prostaglandin E content in the arterial blood and cerebrospinal fluid under conditions of hypo- and hypercapnia]. 51 23

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

1. Extracellular micro-electrodes were used to measure the responses of expiratory bulbospinal neurones to CO2 in anaesthetized, paralyzed cats, ventilated with O2. Simultaneous measurements were made of phrenic nerve and intercostal nerve filament discharges. 2. Hypocapnia produced tonic activity in some of the expiratory neurones and in expiratory filaments but rendered the phrenic and inspiratory filaments silent. 3. A graded excitatory effect of CO2 on tonic activity of both the neurones and the filaments was seen which progressed smoothly and continuously to rhythmic activity as CO2 was increased and to zero as CO2 was decreased. 4. Increases in blood pressure produced effects which were opposite to those produced by CO2, and which had a faster time course. 5. The CO2 response curves of those units showing tonic activity were indistinguishable from the CO2 response curves of those which did not. 6. A mid line lesion in the medulla interrupted inspiratory activity, converting activity of expiratory bulbospinal neurones from periodic to ionic firing patterns. 7. Following such lesions the CO2 threshold for rhythmic excitation of medullary neurones was elevated and the slopes of their CO2 response curves were reduced. 8. These findings fully confirm the hypothesis put forward by Bainton, Kirkwood & Sears (1978b) that bulbospinal respiratory neurones convey both tonic and rhythmic excitation to spinal respiratory motoneurones and that the rhythmic excitation of expiratory muscles derives from a period inhibition of expiratory bulbospinal neurones which are subjected to a tonic CO2 dependent excitation which is continuously variable over the physiological range.
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PMID:The effect of carbon dioxide on the tonic and the rhythmic discharges of expiratory bulbospinal neurones. 52 96

Recent studies have indicated that the breathing frequency responses to inspired CO2 in part result from changes in pulmonary stretch receptor activity. Pulmonary CO2 may alter frequency by direct inhibition of stretch receptor discharge, or secondarily, by changes in airway mechanics. The vascularly isolated left lower lobe (LLL) of the canine lung was used to determine the effect of hypocapnic airway constriction on the pulmonary CO2 reflex. The upper and middle lobes of the left lung were removed and the right vagus nerve sectioned. Blood was recirculated through the LLL. Diaphragm electromyogram was used as an index of respiratory center activity and to trigger ventilation of the left lower lobe. Lobar hypocapnia increased peak airway pressure and reduced respiratory rate. However, infusion of isoproterenol or the use of a mechanical overflow system to block the airway pressure response prevented the frequency changes associated with CO2. Although both the direct and mechanical effects of CO2 on stretch receptors may contribute to the reflex, in the LLL preparation the mechanical effects predominate.
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PMID:Breathing frequency responses to pulmonary CO2 in an isolated lobe of the canine lung. 53 90

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

The effects of respiratory gas mass-transfer by high-efficiency hemodialyzers with regard to respiratory status and acid-base balance were studied in three groups of patients. Patients dialyzed with acetate dialysate and a single pass delivery system (group I) and those dialyzed with the same dialysate and a recirculating single pass system (group II) had significant intradialytic decreases in PCO2 (p is less than 0.05), while patients hemodialyzed aginst a carbon dioxide/bicarbonate dialysate (group III) had no significant alterations in arterial PCO2. The massfransfer rate of carbon dioxide was 0.3 mM/min in group I and 0.2 mM/min in group II. The hypocapnia caused by dialyzer mass-transfer of carbon dioxide was associated with a significant drop in minute ventilation volume and a decrease in PO2 which was significant in group I (p is less than 0.05). Although bicarbonate mass-transfer reduced serum bicarbonate levels, the loss of carbon dioxide to the dialysate resulted in an increased arterial pH during dialysis.
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PMID:Respiratory gas exchange by high-efficiency hemodialyzers. 67 97

An anaesthetic circle system without a carbon dioxide absorber is described. The efficiency of the circle, i.e., the fraction of alveolar gas in the outflow from the circle, was measured in 15 patients during halothane anaesthesia or neurolept analgesia. The fraction ranged from 0.88 to 0.95 (mean 0.91), while the ratio between the alveolar ventilation and the fresh gas inflow ranged from 0.97 to 1.71. The efficiency was not correlated to this ratio. There was no need for hyperventilation if the fresh gas inflow was 10% higher than the alveolar ventilation required to maintain normal PaCO2. The circle was used in 50 patients manually ventilated by nurse anaesthetists. Mean fresh gas inflow was 60 ml/kg. Mean PaCO2 was 5.47 kPa (41 mmHg). In a similar group of 50 other patients, in which the standard circle used in the department was employed, the mean PaCO2 was 4.80 kPa (36 mmHg). The frequency of hypercapnia was equal in the two groups, but hypocapnia was not seen when the circle without absorber was used.
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PMID:A circle system without carbon dioxide absorption. 67 46

1. Electromyography was used to measure the response of the diaphragm and intercostal muscles to CO2 in artificially ventilated decerebrate cats. 2. Hypocapnia produced tonic activity in either inspiratory or expiratory muscles or both, according to the preparation. 3. A graded effect of CO2 on both rhythmic and tonic activity was observed and for the latter this could be seen at as low as 10 torr PA,CO2. 4. In one human subject tonic firing of expiratory motoneurones was also induced by hypocapnia and this activity showed a graded increase with increasing (CO2. 5. A saggital incision of the medulla aimed at interrupting inspiratory bulbospinal axons abolished activity in inspiratory muscles and at eupnoeic levels of CO2 converted the activity of expiratory muscles from a periodic to a topic firing pattern. 6. Following such lesions the threshold for rhythmic excitation of expiratory muscles was elevated and this revealed that the graded effect of CO2 on tonic expiratory activity extends to as high as 60 torr. 7. The tonic activation of respiratory muscles in response to CO2 ceased after cervical cord transection or when the saggital incision in the medulla was extended caudally to the first cervical segment. 8. It is concluded that the CO2 dependent activation of spinal respiratory motoneurones is conveyed by bulbospinal axons which decussate in the vicinity of the obex and that this activation can be rhythmic or tonic. 9. It is suggested that the rhythmic excitation of expiratory muscles derives from a periodic inhibition of expiratory bulbospinal neurones which are subjected to a tonic CO2 dependent excitation which is continuously variable over the physiological range.
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PMID:On the transmission of the stimulating effects of carbon dioxide to the muscles of respiration. 69 Aug 72

Experiments on anesthetized chickens were conducted to study interactions between afferent activity from the intrapulmonary and systemic CO2-sensitive chemoreceptors in the generation of respiratory amplitude (RA) and respiratory frequency (f). The thoracoabdominal cavity was opened, air sacs ruptured and each lung independently and unidirectionally ventilated. Intrapulmonary chemoreceptor activity was altered by changing the PCO2 of the ventilatory gas (PICO2) to the vascularly isolated right lung (VIL); systemic chemoreceptor activity was altered by changing the PICO2 to the denervated left gas exchange lung (GEL). Respiratory amplitude and frequency responses to changes in intrapulmonary PCO2 were determined at four levels of systemic arterial PCO2 (PaCO2). The results indicate that elevating PaCO2 shifts the pulmonary CO2-response curves for both RA and f to the left and increases the sensitivity of the RA-CO2 response curve but decreases the sensitivity of the f-CO2 response curve. We conclude that (1) interaction occurs between intrapulmonary and systemic afferent activity in the generation of RA and f, (2) the nature of the interaction is synergism with respect to RA and interference with respect to f, and (3) the interaction is greater during hypocapnia than hypercapnia.
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PMID:Intrapulmonary and systemic CO2-chemoreceptor interaction in the control of avian respiration. 70 70


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