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)

Sea level hen eggs, selected for their shell conductance (water vapor conductance, HH2O), were incubated at a simulated high altitude, PB = 529 Torr, ca. 2900 m, at 72% relative humidity (rh) to prevent excessive water loss due to hypobaric condition; they were transferred to 150 m 18-24 h before measurements. Control eggs were incubated at 150 m, PB = 750 Torr, rh = 60%. In 8- to 18-day embryos, total CO diffusive conductance, GCO; embyronic body mass, BM; oxygen consumption, MO2; blood hematocrit, Hct; hemoglobin concentration, [Hb]; and heart mass, HM, were measured. Total water loss was the same in both groups, 12% initial egg mass. However, the severe effects of high altitude: 72% mortality and 9% malformation, and reduced increases of BM and MO2, can be related partially to the strong hypocapnia, which resulted from the high shell conductance (GH2O = 18.1 mg X (d X Torr)-1, and was superimposed on the hypoxia. GCO was reduced, while Hct, [Hb] and HM were not significantly affected. When measurements were normalized to BM, MO2 and GCO were identical in the two groups, whereas [Hb] and HM were higher at 2900 m (differential growth). Thus, during incubation, gas diffusive conductance appeared to depend on embryo development and did not adapt to altitude hypoxia. Compared with controls, GCO in high-altitude eggs actually decreased in proportion to BM growth.
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PMID:Gas diffusive conductance of sea-level hen eggs incubated at 2900 m altitude. 392 18

1. Birds lose water in evaporation from the respiratory tract and, in many species, through the skin. Anatomical arrangements in the nasal passages to conservation of water and hear from the expired air in the absence of heat loads. However, most species still expend more water in evaporation than they produce in metabolism when either quiescent or vigorously active. Certain small birds, several of them associated with arid environments, represent exceptions to this and their more favorable situation appears in part to reflect as an ability to curtail cutaneous water loss. 2. Birds typically resort to panting in dealing with substantial heat loads developing in hot environments or accumulated over bouts of activity. In a number of species this form of evaporative cooling is supplemented by gular fluttering. 3. The ubiquitousness of active heat defense appears to reflect more the importance for birds of dealing with heat loads existing following flight or sustained running than any universal affinity for hot climates. Panting can be sustained for hours, despite progressive dehydration and, in some instances, hypocapnia and respiratory alkalosis. The prominent involvement of thermoreceptors in the spinal cord in its initiation is of considerable interest.
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PMID:Evaporative losses of water by birds. 612 38

In 16 experiments male subjects, age 22.4 +/- 0.5 (SE) yr, inspired CO2 for 15 min (8% end-tidal CO2) or hyperventilated for 30 min (2.5% end-tidal CO2). Osmolality (Osm) and acid-base status of arterialized venous blood were determined at short intervals until 30 min after hypo- and hypercapnia, respectively. During hypocapnia [CO2 partial pressure (PCO2) -2.31 +/- 0.32 kPa (-17.4 Torr), pH + 0.19 units], Osm decreased by 3.9 +/- 0.3 mosmol/kg H2O; during hypercapnia [PCO2 + 2.10 +/- 0.28 kPa (+15.8 Torr), pH -0.12 units], Osm increased by 5.8 +/- 0.7 mosmol/kg H2O. Presentation of the data in Osm-PCO2 or Osm-pH diagrams yields hysteresis loops probably caused by exchange between blood and tissues. The dependence of Osm on PCO2 must result mainly from CO2 buffering and therefore from the formation of bicarbonate. In spite of the different buffer capacities in various body compartments, water exchange allows rapid restoration of osmotic equilibrium throughout the organism. Thus delta Osm/delta pH during a PCO2 jump largely depends on the mean buffer capacity of the whole body. The high estimated buffer value during hypercapnia (38 mmol/kg H2O) compared with hypocapnia (19 mmol/kg H2O) seems to result from very strong muscle buffering during moderate acidosis.
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PMID:Blood osmolality during in vivo changes of CO2 pressure. 640 68

Hyperventilation and hyperpyrexia occur simultaneously during acute salicylate intoxication. The present experiments were designed to investigate the stimulatory effect of increased body temperature on respiration in this pathological state. Acute salicylate intoxication was produced in mongrel dogs by intravenous infusion of 200 mg sodium salicylate/kg body weight, and the effect of body temperature on salicylate-induced hyperventilation was studied by comparing the respiration of hyperthermic animals with the respiration of animals maintained normothermic during acute salicylate intoxication by bathing them in cold water. The minute volume of ventilation increased greatly over control levels in both normothermic and hyperthermic animals, but this increment was much larger in hyperthermic animals. The increase in ventilation of normothermic animals can be explained as a rise in alveolar ventilation which results in hypocapnia despite large increases in carbon dioxide production and oxygen consumption during acute salicylate intoxication. The further augmentation of ventilation in hyperthermic animals can be explained as a rise in deadspace ventilation in response to increased body temperature during acute salicylate intoxication.
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PMID:Effect of body temperature on salicylate-induced hyperventilation. 641 55

The effect of acute changes in arterial PCO2 on absolute proximal reabsorption of bicarbonate, chloride, and water has not been systematically studied. In the present free-flow micropuncture studies in Munich-Wistar rats, arterial PCO2 was increased or decreased by 20 mmHg. Under conditions of stable SNGFR, proximal and whole kidney electrolyte reabsorption was measured. Acute hypocapnia decreased absolute proximal bicarbonate reabsorption by 23% (from 1,008 +/- 38 to 773 +/- 36 pmol/min). Proximal volume reabsorption also decreased. Although bicarbonate delivery out of the superficial proximal convoluted tubule did not exceed normal levels, bicarbonaturia developed, suggesting an additional suppression of acidification by distal and/or juxtamedullary nephron segments. Acute hypercapnia increased absolute proximal bicarbonate reabsorption by only 10% in chronically alkalotic animals (from 1,050 +/- 68 to 1,176 +/- 77 pmol/min). In acutely alkalotic animals, hypercapnia caused no significant increment in the higher basal level of absolute proximal bicarbonate reabsorption (from 1,158 +/- 120 to 1,234 +/- 97 pmol/min). Whole kidney bicarbonate reabsorption rose, again suggesting a distal and/or juxtamedullary effect. Hypercapnia inhibited proximal chloride reabsorption and caused a chloruresis. In conclusion, acute hypo- and hypercapnia caused alterations in proximal bicarbonate, chloride, and sodium transport that may participate, at least in part, in the changes in whole kidney electrolyte reabsorption observed in these conditions. Distal and/or juxtamedullary nephrons also appeared to contribute to the changes in renal acidification induced by alterations in systemic PCO2.
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PMID:Effects of acute alterations in PCO2 on proximal HCO-3, Cl-, and H2O reabsorption. 642 Nov 73

Ventilatory regulation of intact, unrestrained lugworms Arenicola marina living in glass-tube artificial burrows was examined for values of inspired seawater PO2, PIO2, from 20 to 700 torr, at constant ambient pH and PCO2 values. The water ventilation rate and the respiratory characteristics of the ventilated seawater were measured. The water convection requirement and the corresponding specific rates of O2 uptake and CO2 production were calculated. The mean ventilatory water flow was a complex function of PIO2: decrease in hyperoxia, increase in hypoxia, decrease in extreme hypoxia. Compared to the normoxic responses, hyperoxia led to a hypercapnia (and acidosis) and moderate hypoxia to a hypocapnia (and alkalosis) in the expired water, variations which presumably reflect blood acid-base balance changes. Thus, as in other water breathers, the regulation of the organism's oxygenation may override the regulation of its acid-base balance. The lugworm's oxygen exchanger is highly efficient. However, below a critical partial pressure, PIO2 ca 120 torr, values of O2 consumption and ventilation decreased. A second critical O2 partial pressure appeared at PIO2 values between 80 and 40 torr; a 'switch-on' of anaerobic metabolism. These phenomena may be viewed as features of an adaptative respiratory strategy selected for in relation with the lugworm's particular peristaltic ventilatory mechanism and its intertidal mode of life.
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PMID:Ventilation and respiratory gas exchanges of the lugworm Arenicola marina (L.) as functions of ambient PO2 (20-700 torr). 644 Dec 15

Profound hypothermia below 20 degrees C achieved by surface cooling using simple ice water bath equipment and deep ether anaesthesia is used with the aid of autonomic nerve blocking agents to obtain cardiac arrest for periods of over one hour for open-heart surgery. Blood levels of ether were between 40.6 mg/dl and 285.7 mg/dl during anaesthesia. No arrhythmia occurred and vital signs were quite stable. Hypocarbia throughout the procedure, severe base deficit after circulatory arrest, spontaneous recovery of metabolic acidosis, and a nearly normal cH+ (pH) were observed. Catecholamine increased moderately after circulatory arrest, but was far below shock levels. Plasma renin activity was markedly elevated but angiotensin II stayed at non-significant levels throughout the procedure. Excess lactate showed no significant change. Hyperglycaemia was noted. The mortality rate was 7.7 per cent and neurological disorders occurred in less than 5.8 per cent of the recent 52 cases.
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PMID:A study of profound hypothermia by surface cooling. 677 40

The presence of pulmonary, cerebral, and/or peripheral edema in acute mountain sickness (AMS) implies a derangement in the body's handling of water. Previously, we demonstrated water retention and increased symptoms of AMS when hypocapnia was prevented in subjects exposed to simulated high altitude. This led us to the hypothesis that upon ascent to high altitude, those persons who fail to increase their ventilation adequately and hence do not become hypocapnic will retain water reflected as weight gain and will develop AMS. To test this hypothesis, we studied in Kathmandu, Nepal (1,377 m) 42 healthy western tourists; all were restudied in Pheriche (4,243 m) within 6 days of exposure to high altitude. Symptoms of AMS were highly correlated (p less than 0.001) with weight change, suggesting that persons becoming symptomatic retained fluid. On going from low to high altitude, those persons who lost weight and remained well increased their resting ventilation, whereas those who gained weight did not (p = 0.03). This relative hypoventilation in the latter group was confirmed by higher values of Pco2 (heated hand vein blood) and lower values of arterial saturation (ear oximeter) at Pheriche. Vital capacity measured in Kathmandu was correlated with arterial saturation at Pheriche (p = 0.02); persons with low vital capacity were more hypoxemic with more symptoms of AMS. We conclude that relative hypoventilation and weight gain appear early in the development of AMS suggesting links between altitude hypoxia, hyperventilation, hypocapnia, and the body's handling of water.
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PMID:Fluid retention and relative hypoventilation in acute mountain sickness. 681 46

This investigation tests the hypothesis that the normal cerebral image obtained non-invasively during continuous inhalation of C15O2 is related to cerebral blood flow. Trace amounts of CO2 labeled with the positron-emitting radionuclide 15O were administered to 4 normal subjects at normo- and hypocapnia and to 2 of these subjects at hypercapnia. Hypocapnia typically caused a marked decrease in cerebral 15O activity, and hypercapnia a small increase in activity. The relative difference in the change in count rate in response to hypo- and hypercapnia is what one would expect if the activity represented bloow flow, according to a mathematical model which assumes the 15O label enters the brain as water of perfusion. The findings in this study suggest that the normal cerebral image obtained during continuous inhalation of C15O2 is related to cerebral blood flow, but in a non-linear fashion, and that the technique would be more sensitive to ischemic events than to hyperemic phenomena.
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PMID:Positron imaging of cerebral blood flow during continuous inhalation of C15O2. 696 50

Six children who remained in deep coma after immersion accidents in fresh water received therapy to maintain normal intracranial pressure (ICP). This involved controlled ventilation to ensure hypocapnia and hyperoxaemia, maintenance of low normothermia, fluid restriction, dexamethasone (1-1.5 mg/kg initially, 1-1.5 mg/kg/day as maintenance) and barbiturates (phenobarbitone and thiopentone). The latter were given in a wide range of dosage. Increased ICP was common to all patients, but could always be kept at acceptable levels. All patients suffered from pulmonary oedema; three developed broncho-pneumonia and two developed adult respiratory distress syndrome. All children survived with good recovery, two needed active rehabilitation for several months.
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PMID:Intensive care after fresh water immersion accidents in children. 718 Oct 62


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