Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0085383 (hypocapnia)
1,697 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Experiments were conducted on cats under nembutal anesthesia; a study was made of pulse activity of bulbar respiratory neurons, electrical activity of the diaphragm and of the intercostal muscles; pO2, pCO2, pH, arterial blood oxygen saturation were determined in combined action of hypoxia and hypercapnia. When hypoxic gaseous mixture was given for respiration the developing hypocapnia disturbed the discharge rhythmic activity of the respiratory neurons, the respiration acquiring a pathological character of the Cheyne--Stokes type. After addition to the hypoxic gaseous mixture of 2% CO2 the gaseous composition of the arterial blood approached the initial values; this addition prevented the development of hypercapnia and disturbances of rhythmic discharge activity of the respiratory neurons. Addition of 5% CO2 to the hypoxic gaseous mixture produced a negative effect: at first it intensified and then depressed the pulse activity of the respiratory neurons, caused metabolic and respiratory acidosis, and promoted asphyxia.
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PMID:[Combined effects of hypoxia and hypercapnia on the functional state of the respiratory center]. 0 Jan 3

The effect of oxygen saturation and PCO2 on brain uptake of glucose analogues was studied in rabbits. Using a modified Oldendorf technique, 14C-labeled glucose analogues with a 3H2O reference standard were introduced into the cerebral circulation via the common carotid artery, and the radioactivity of the ipsilateral cerebral cortex was counted and expressed in terms of a brain uptake index (BUI). Severe hypoxia (oxygen saturation less than or equal to 18%) resulted in approximately a 40% decrease in the BUI of 2-deoxy-D-glucose and a 45% decrease in the BUI of 3-0-methyl-D-glucose. Severe hypercapnia (PCO2 = 100 mm Hg) caused a 45% decrease in the BUI of both of these glucose analogues. Hypercapnia superimposed on severe hypoxia had no additional effect. Hypocapnia (PCO2 = 15 mm Hg) increased the BUI of 3-0-methyl-D-glucose by 35% of the control value, and this increase was extremely sensitive to competitive inhibition. When BUI values were plotted against pH rather than PCO2 for the same experiments, there was a good correlation with the calculated linear regression. These results are compared with previous findings on pathologically induced changes in brain uptake of glucose analogues, and the possible role of blood flow is considered in detail.
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PMID:Effects of oxygen saturation and pCO2 on brain uptake of glucose analogues in rabbits. 0 Aug 21

Hypocapnia during extracorporeal circulation in hypothermia increases oxygen consumption. Po2 in mixed venous blood decreases. This probably reflects a decrease in tissue oxygen tension. Hyperventilation will therefore increase the risk of hypoxia in critically perfused tissues. Therefore we recommend to keep PaCO2 (T) constant at 40 mm Hg during hypothermia.
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PMID:[The influence of PaCO2 on oxygen consumption during extracorporeal circulation in hypothermia (author's transl)]. 0 89

It is generally believed that the reduction in plasma [HCO3] characteristic of chronic hypocapnia results from renal homeostatic mechanisms designed to minimize the alkalemia produced by.the hypocapneic state. To test this hypothesis, we have induced chronic hypocapnia in dogs in which plasma [HCO3] had previously been markedly reduced (from 21 to 15 meq/liter) by the prolonged feeding of HCl. The PaCO2 of chronically acid-fed animals was reduced from 32 to 15 mm Hg by placing the animials in a large environmental chamber containing 9% oxygen. In response to this reduction in PaCO2, mean plasma [HCO3] fell by 8.6 meq/liter, reaching a new steady-state level of 6.4 meq/liter. This decrement in plasma [HCO3] is almost identical to the 8.1 meq/liter decrement previously observed in normal (nonacid-fed) animals in which the same degree of chronic hypocapnia had been induced. Thus, in both normal and HCl-fed animals, the renal response to chronic hypocapnia causes plasma [HCO3] to fall by approximately 0.5 meq/liter for each millimeter of Hg reduction in CO2 tension. By contrast, the response of plasma [H+] in the two groups was markedly different. Instead of the fall in [H+] which is seen during chronic hypocapnia in normal animals, [H+] in HCl-fed animals rose significantly from 53 to 59 neq/liter (pH 7.28-7.23). This seemingly paradoxical response is, of course, an expression of the constraints imposed by the Henderson equation and reflects the fact that the percent fall in [HCO3] in the HCl-fed animals was greater than the percent fall in PaCO2. These findings clearly indicate that in chronic hypocapnia the kidney cannot be regarded as the effector limb in a homeostatic feedback system geared to the defense of systemic acidity.
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PMID:Regulation of acid-base equilibrium in chronic hypocapnia. Evidence that the response of the kidney is not geared to the defense of extracellular (H+). 0 88

Awake domestic pigeons, either maintained at 22 degrees C (series I) or acutely exposed at 2 degrees C (series II), were studied in a hypobaric chamber at 140 m and at various stages during a 4-week exposure to 4000 m. Steady-state pulmonary ventilation (Vg) and breathing pattern (VT, fr), oxygen consumption (MO2), O2 concentrations and pressures in the arterial (a) and mixed venous blood (v), hematocrit (Ht) and acid-base status in arterial blood, systolic blood pressure and heart frequency (fH) were measured. From these data cardiac output (Vb) and stroke volume (Vs), ventilatory and circulatory requirements (Vg/MO2, Vb/MO2), extraction of O2 from inspired air (EgO2) and blood EbO2), and capacitance coefficient of blood for oxygen (betabo2) were calculated. At 140 m, by comparison with predicted values for mammals of same body weight, pigeons at 22 degrees C extracted more O2 from the inspired gas, with lower fR, larger VT, similar Vg; they extracted O2 from the blood like mammals, with lower fH, larger VS, greater Vb, similar betabO2=70 mumol-L-1-torr-1. Acute exposure to 2 degrees C provoked a two-fold increase in MO2 which was achieved by doubling Vg and increasing O2 extraction from the blood. At 4000 m, in both series, pigeons hyperventilated within the first 30 min, with a resultant hypocapnic alkalosis comparable to that in mammals. Further hyperventilation with consequent greater hypocapnia and increase of arterial PO2 was complete beyond 3 hr. After a few weeks, the pH remained 0.07 above control normoxic value, Ht increased from 45 to 52%, betabO2 reached about 172 mumol-L-1-torr-1. At 2 degrees C, Vb also increased, mainly due to tachycardia.
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PMID:Ventilatory and circulatory O2 convection at 4000 m in pigeon at neutral or cold temperature. 1 65

Pulmonary complications after cardiac surgery under extracorporeal circulation remain frequent and sometimes grave, in spite of the great progress which has been made over the past 20 years in the methods of cardiorespiratory assistance. The authors analyse the clinical and radiological repercussions of perfusion on the lung, in 40 patients operated under ECC for coronary revascularisation. The simutaneous study of the arterial, and mixed venous blood gasses and of the alveolar gases, in 20 of these patients showed the constant occurrence of a shunt syndrome, without alveolar hypoventilation or disorders in peripheral circulatory flow. Ventilatory alcalosis, hypocapnia, hypoxemia and the rise in the alveolar arterial oxygen gradient is increased during the second post-operative day. Among the variables studied (duration of ECC, degree of hypothermia, duration of the intervention, duration of anesthesia, pleurotomy) only the latter intervened in a statistically significant manner in this study, in the increase in hypoxemia. 46 pulmonary biopsies carried out before and after ECC in 23 coronary patients were examined with the electron microscope. The initial alveolar involvement affects the septal microcirculation with signs of an increase in capillary permeability leading to an interstitial and epithelial destruction. The use of a membrane oxygenator prevents some of the alveolar lesions, as has been proved by the study of five pulmonary biopsies carried out in dogs submitted to ECC of long duration. Catherterization of the pulmonary artery carried out in 35 patients by means of a SWAN-GANZ catheter, before the intervention enabled supervision of the degree of importance and speed of the hemodynamic variations in the pulmonary circulation during the different phases of ECC (during the phase of ventricular fibrillation). The rise in the flow of left output can lead to the occurrence of negative pulmonary intravascular pressures which can be prejudicial for capillary trophicity. The syndrome of "ECC lung", a veritable "induced post-agressive lung" must be placed in the group of refractory hypoxemia of which it represents one of the most typical pictures.
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PMID:[Pulmonary complications after extracorporeal circulation. ECC lung syndrome]. 1 38

This study was designed to determine the effect of methylprednisolone on the profile of hepatic oxygen supply and selected blood parameters in fasted, male rats administered an LD85 dosage of E coli endotoxin intraperitoneally. Mortality rates within 24 hours were 85% in rats receiving endotoxin only, 9% in rats receiving a 30 mg/kg dosage of methylprednisolone intraarterially one hour subsequent to endotoxin insult, and 0% in methylprednisolone controls. Beginning with the fourth hour, untreated endotoxin rats had significantly higher heart rates and lower plasma glucose; by the sixth or eighth hour there was significantly greater hypocapnia, lower blood pH, and higher plasma lactate levels in comparison to endotoxic rats receiving methylprednisolone. In addition, mean hepatic pO2 between the sixth and seventh hours was 2.6 mm Hg in endotoxic rats, 10.6 mm Hg in endotoxic methylprednisolone rats, and 17.7 mm Hg in methylprednisolone controls. Methylprednisolone controls showed a steady increase of plasma glucose levels through eight hours but were otherwise stable. Maintenance of hepatic circulation is cited as the probable basis for differences of morbidity and mortality between treated and glucocorticoid-treated endotoxic rats.
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PMID:The effect of methylprednisolone on hepatic oxygen supply and plasma lactate and glucose in endotoxemia. 4 Jul 7

Responses of aortic chemoreceptor afferents to a range of arterial carbon dioxide tension (Paco2) changes at various levels of arterial oxygen tension (Pao2) were investigated in 18 cats anesthetized with alpha-chloralose and maintained at 38 degrees C. Aortic chemoreceptor activity, end-tidal oxygen pressure, end-tidal carbon dioxide pressure, and arterial blood pressure were continuously monitored. Arterial blood gases were measured in steady states. Single or a few clearly identifiable afferents were studied during changes and steady states of Pao2 and Paco2. All the aortic chemoreceptor afferent discharge rates increased with Paco2 increases from hypercapnia (10-15 Torr) to normocapnia and moderate hypercapnia (30-50 Torr) and with Pao2 decreases from above 400 to 30 Torr. Hypoxia augmented the response to Paco2 most effectively in the range of 10-40 Torr. At any Pao2, the discharge rate reached a plateau with sufficient intensity of hypercapnia. The Paco2 stimulus threshold at a Pao2 of 440 Torr was about 15 Torr, and at a Pao2 of 60 Torr it was 10 Torr. In the transition from hypocapnia to hypercapnia, responses increased gradually, usually without an overshoot. The steady-state responses to Paco2 of the majority of aortic chemoreceptors resembled those of carotid chemoreceptors. The responses of both receptors can be attributed to the same basic type of mechanism.
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PMID:Aortic body chemoreceptor responses to changes in PCO2 and PO2 in the cat. 4 29

To investigate the influence of variations in arterial oxygen tensions (PaO2), arterial carbon dioxide tensions (PaCO2), and arterial pH on long bone medullary pressures, seven anaesthetized dogs were investigated. Comparing the control medullary pressures, i.e. the mean medullary pressures obtained at the normal range of PaO2 (75--110 mmHg) with the mean medullary pressures corresponding to the range of PaO2 of less than 75 mmHg, statistically significant (P less than 0.05) decreases were seen in both epiphyseal, metaphyseal and diaphyseal medullary pressures, from 27.6 +/- 5.0 to 15.5 +/- 3.6 mmHg, from 23.5 +/- 2.9 to 13.9 +/- 2.3 mmHg and from 27.7 +/- 3.9 to 18.3 +/- 2.5 mmHg (all mean values +/- s.e. mean), respectively. Hyperoxia, hypocapnia, hypercapnia or metabolic acidosis had no effect on medullary pressures in any of the regions studied.
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PMID:Observations on long bone medullary pressures in relation to arterial PO2, PCO2 and pH in the anaesthetized dog. 4 59

In a group of 21 cats, the middle cerebral artery pressure (MCAP) was recorded by means of a catheter introduced into the artery at its origin, just distal to the occlusion. The effects of hypertension, hypercapnia, and hypocapnia were studied. In a group of five cats, both middle cerebral arteries (MCA) were catherized and the pressure was recorded simultaneously on both sides. In another group of five cats, O2 tension measurements were made with the aid of oxygen electrodes in the brain tissue, the occluded MCA, and the common carotid artery. Some of the results obtained in this study are compared with the results of a previous study where monkeys were used as experimental animals.
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PMID:Haemodynamic changes in the cerebral circulation of the cat during occlusion of the middle cerebral artery. 10 Oct 24


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