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

1. In four awake dogs we measured EMG activity of three inspiratory and four expiratory muscles during sustained central chemoreceptor stimulation (CO2 inhalation), and peripheral chemoreceptor stimulation (intravenous infusion of almitrine bismesylate (almitrine)). By using this selective pharmacological stimulation of the peripheral chemoreceptors and reversibly cold-blocking pulmonary stretch receptors, we were able to determine the effects of each type of stimulation on respiratory muscle recruitment in the absence of such complicating influences as pulmonary stretch receptor feedback, cerebral hypoxia or hypocapnia, and differences in breathing pattern. 2. During 10 min of steady-state hyperpnoea (minute ventilation VI, approximately twice eupnoea) caused by either hypercapnia or isocapnic stimulation of the carotid bodies with almitrine, all three inspiratory and all four expiratory muscles demonstrated significant and sustained elevations in EMG activity. 3. With both types of chemoreceptor stimulation, as tidal volume, VT, increased, so did the mean electrical activities of the crural diaphragm (r = 0.88), costal diaphragm (r = 0.93), parasternals (r = 0.82), triangularis sterni (r = 0.74), transversus abdominis (r = 0.77), external obliques (r = 0.68) and internal intercostals (r = 0.75). 4. In each dog, the response of ventilation and of the diaphragmatic EMG to a given level of central or peripheral chemoreceptor stimulation is highly reproducible from one test day to the next. On the other hand, accessory inspiratory and expiratory abdominal and rib cage muscles in two of the four dogs showed highly significant changes from day to day in the amount of their EMG activity at any given VT. 5. During steady-state ventilatory stimulation, 2 min intervals were chosen during which the two types of chemoreceptor stimulation had caused hyperpnoeas with similar values for VT, total time per breath (TTOT) and inspiratory time divided by the total time (TI/TTOT). Comparison of EMG activities during these matched hyperpnoeas revealed that there were no differences in the activities of any of the muscles between the two forms of stimulation. We conclude that peripheral chemoreceptor stimulation causes significant and sustained recruitment of expiratory muscles even in the absence of pulmonary feedback and that both expiratory and inspiratory muscles are recruited to the same extent during peripheral chemoreceptor stimulation as they are during an identical hyperpnoea caused by central chemoreceptor stimulation.
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PMID:Respiratory muscle recruitment during selective central and peripheral chemoreceptor stimulation in awake dogs. 159 81

We used a wedged bronchoscope technique in conjunction with an in situ isolated perfused left lower lobe preparation in anesthetized dogs to examine cold-associated airway modulation of peripheral lung responses to dry airflow, hypocapnia, and aerosols of histamine and hypertonic NaCl. In this preparation, airway wall temperature was rapidly lowered by decreasing the temperature of blood perfusing the wedged sublobar segment. Cooling significantly attenuated responses to dry air, hypertonic NaCl aerosol, and hypocapnic challenge. In contrast, cooling did not affect peripheral lung responses to aerosolized histamine. Thus, cooling per se does not inhibit the responsiveness of smooth muscle. We conclude that, depending on the stimulus, cooling can modulate airway reactivity. We speculate that cooling attenuates hypocapnia, hypertonic aerosol, and dry air-induced bronchospasm via a cold induced reduction in neuronal activity or mediator production and release.
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PMID:Airway cooling: stimulus specific modulation of airway responsiveness in the canine lung periphery. 193 28

Aortic chemoreceptor influences on vascular capacitance after changes in blood carbon dioxide and oxygen were studied in mongrel dogs anesthetized with methoxyflurane and nitrous oxide. The mean circulatory filling pressure (Pmcf), measured during transient cardiac fibrillation, provided a measure of capacitance vessel tone. Hypercapnia, hypoxia, and hypoxic hypercapnia significantly increased most variables, except that hypercapnia caused the total peripheral resistance (TPR) to decrease. Hypocapnia caused a significant decrease in mean systemic (Psa) and pulmonary (Ppa) arterial blood pressures, cardiac output (CO), and central blood volume and an increase in TPR and heart rate. The changes in Pmcf on changing blood gas tensions could be described by the equation delta Pmcf = -1.60 + 0.036 (arterial PCO2) + 50.8/arterial PO2. Thus a 10 mmHg increase in arterial PCO2 caused a 0.36 mmHg increase in Pmcf with receptors intact. Cold block (2 degrees C) of the cervical vagosympathetic trunks did not significantly influence the measured variables at control. During severe hypercapnia, vagal cooling caused a small but significant decrease in Pmcf, Psa, Ppa, and CO but not TPR. During hypoxia, vagal cooling caused the Pmcf, Psa, and TPR to decrease. We conclude that although hypercapnia or hypoxia acts reflexly to increase the capacitance vessel tone (an increase in Pmcf), the aortic and cardiopulmonary chemoreceptors with afferents in the vagi have only a small influence on the capacitance system, accounting for only approximately 25% of the total body response.
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PMID:Effects of hypercapnia and hypoxia on the cardiovascular system: vascular capacitance and aortic chemoreceptors. 239 98

We used mechanical ventilation of the fetal lungs in utero on 11 fetal lambs at 140-145 days gestation to alter fetal blood gases and thus separate the influences of PaO2 and PaCO2 on extrauterine breathing after cord clamping. The fetus was delivered either into a 40 degrees C saline bath or onto a cold table. Mechanical ventilation was stopped 2 min after delivery and the time to onset of continuous air breathing was observed. Also two fetuses were ventilated in utero 5 or more days after chronic instrumentation at 127 days gestation; in these animals the time to onset of breathing (diaphragm EMG) was recorded after stopping the ventilator and occluding the cord. We conclude: (a) hypercapnia is a stimulus to breathing even in hyperoxia and at 40 degrees C; (b) hypocapnia delays the start of extrauterine breathing in hyperoxia at 40 degrees C; (c) hypoxia inhibits breathing in the absence of hypercapnia or cold; (d) cold overrides the effects of hypocapnia in normoxia or moderate hypoxia.
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PMID:Determinants of the onset of continuous air breathing at birth. 366 76

A 42 year old woman with long standing Raynaud's disease, unresponsive to medical and surgical treatment, was noted to have a typical history of the hyperventilation syndrome. Rewarming of the hands following cold challenge was markedly prolonged in the presence of hypocapnia. It is suggested that hyperventilation may have an aetiological role in maintaining digital artery spasm in Raynaud's disease, which would benefit from recognition and treatment.
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PMID:Hyperventilation and Raynaud's disease. 367 Dec 72

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

1. The present study was designed to determine the effect of sleep on the tonic output to respiratory muscle and on the level of chemical respiratory stimulation required to produce rhythmic respiratory output. 2. Chronically implanted electrodes recorded expiratory (triangularis sterni) and inspiratory (diaphragm and parasternal intercostal) electromyographic (EMG) activities in three trained dogs during wakefulness and sleep. The dogs were mechanically hyperventilated via an endotracheal tube inserted into a permanent tracheostomy. During the studies, a cold block of the cervical vagus nerves was maintained to avoid the complicating effects of vagal inputs on respiratory drive and rhythm. 3. During wakefulness, steady-state hypocapnia (partial pressure of CO2, PCO2 = 30 mmHg) abolished inspiratory EMG activity, resulting in apnoea, but the expiratory muscle became tonically active. Compared to wakefulness, the level of the tonic expiratory EMG activity was decreased in non-REM (non-rapid eye movement) sleep (median decrease = 34%, P = 0.005) and was further decreased in REM sleep (median decrease = 78%, P < 0.0001). During REM sleep, the tonic expiratory EMG activity was highly variable (mean coefficient of variation = 39% compared to 7% awake, P < 0.0001) and in some periods of REM, bursts of inspiratory EMG activity and active breathing movements were observed despite the presence of hypocapnia. 4. During constant mechanical hyperventilation, progressive increases in arterial PCO2 (in hyperoxia) were produced by rebreathing. Measurement of the CO2 threshold for the onset of spontaneous breathing showed that this threshold was not different between wakefulness and non-REM sleep (mean difference = 0.1 mmHg from paired observations, 95% confidence interval for the difference = -1.0 to +1.1 mmHg, P = 0.898). 5. The results show that sleep reduces the tonic output to respiratory muscles but does not increase the CO2 threshold for the generation of rhythmic respiratory output. These observations suggest that changes in the tonic drives to the respiratory motoneurones may be a principal mechanism by which changes in sleep-wake states produce changes in respiratory output.
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PMID:Effects of sleep on the tonic drive to respiratory muscle and the threshold for rhythm generation in the dog. 801 11

This study was designed to determine whether a chemoreceptor-mediated tonic respiratory drive exists below the apneic threshold. Expiratory (triangularis sterni) and inspiratory (diaphragm and parasternal intercostal) electromyographic activities were recorded in three awake relaxed dogs breathing through an endotracheal tube inserted into a permanent tracheostomy. The cervical vagus nerves were cold blocked to avoid the complicating effects of vagal inputs on respiratory activity. During hypocapnia produced by mechanical hyperventilation, expiratory muscle activity converted from rhythmic to tonic discharge when inspiratory muscle activity and spontaneous breathing movements were abolished. In hypocapnia, changes in arterial PCO2 (in hyperoxia) were produced by changing the ventilator rate for steady-state (> 6 min) CO2 stimuli and by disconnecting the ventilator for transient CO2 stimuli. By use of either method, a CO2-mediated drive to the expiratory muscle was consistently observed during hypocapnic apnea. At a constant level of hypocapnia, inhalation of 5% O2 consistently caused the onset of spontaneous breathing; the onset of phasic inspiratory activity was associated with reciprocal inhibition of the tonic expiratory activity. However, inhalation of 10 and 15% O2 caused an inhibition of the tonic expiratory activity, even without the onset of breathing. These results suggest that the response threshold of the respiratory chemoreceptors is lower than the apneic threshold and that a chemoreceptor-mediated tonic respiratory drive persists during apnea.
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PMID:Tonic respiratory drive in the absence of rhythm generation in the conscious dog. 817 77

Hypoxia lowers the basic thermoregulatory responses of animals and humans. In cold-exposed animals, hypoxia increases core temperature (Tco) cooling rate and suppresses shivering thermogenesis. In humans, the experimental effects of hypoxia on thermoregulation are equivocal. Also, the effect of hypoxia has not been separated from that of hypocapnia consequent to hypoxic hyperventilation. To determine the isolated effects of hypoxia on warm and cold thermoregulatory responses and core cooling during mild cold stress, we examined the Tco thresholds for sweating, vasoconstriction, and shivering as well as the core cooling rates of eight subjects immersed in 28 degrees C water under eucapnic conditions. On 2 separate days, subjects exercised on an underwater cycle ergometer to elevate Tco above the sweating threshold. They then rested and cooled until they shivered vigorously. Subjects inspired humidified room air during the control trial. For the eucapnic hypoxia trial, they inspired 12% O2-balance N2 with CO2 added to maintain eucapnia. Eucapnic hypoxia lowered the Tco thresholds for vasoconstriction and shivering by 0.14 and 0.19 degrees C, respectively, and increased core cooling rate by 33% (1.83 vs. 1.38 degrees C/h). These results demonstrate that eucapnic hypoxia enhances the core cooling rate in humans during mild cold stress. This may be attributed in part to a delay in the onset of vasoconstriction and shivering as well as increased respiratory heat loss during hypoxic hyperventilation.
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PMID:Eucapnic hypoxia lowers human cold thermoregulatory response thresholds and accelerates core cooling. 892 79

The etiology of exercise hypocapnia is unknown. The contributions of exercise intensity (ExInt), lactic acid, environmental temperature, rectal temperature (Tre), and physical conditioning to the variance in arterial CO2 tension (PaCO2) in the exercising sheep were quantified. We hypothesized that thermal drive contributes to hyperventilation. Four unshorn sheep were exercised at approximately 30, 50, and 70% of maximal O2 consumption for 30 min, or until exhaustion, both before and after 5 wk of physical conditioning. In addition, two of the sheep were shorn and exercised at each intensity in a cold (<15 degrees C) environment. Tre and O2 consumption were measured continuously. Lactic acid and PaCO2 were measured at 5- to 10-min intervals. Data were analyzed by multiple regression on PaCO2. During exercise, Tre rose and PaCO2 fell, except at the lowest ExInt in the cold environment. Tre explained 77% of the variance in PaCO2, and ExInt explained 5%. All other variables were insignificant. We conclude that, in sheep, thermal drive contributes to hyperventilation during exercise.
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PMID:Thermal drive contributes to hyperventilation during exercise in sheep. 965 92


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