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

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.
J Appl Physiol Respir Environ Exerc Physiol 1979 Dec
PMID:Breathing frequency responses to pulmonary CO2 in an isolated lobe of the canine lung. 53 90

Changes in myocardial performance after administration of gallamine 1.5 mg kg-1 and pancuronium 0.1 mg kg-1 were investigated in hypercapnic (PaCO2 = 7.08 kPa) and hypocapnic (PaCO2 = 2.74 kPa) dogs anaesthetized with thiopentone, nitrous oxide and halothane. Administration of pancuronium during hypocapnia caused a decrease of 25% in dP/dt max (corrected for changes in preload, afterload and heart rate). This change was not seen during hypercapnia, probably because of the associated sympathetic stimulation. By contrast, gallamine was without effect on dP/dt max in both groups. The increase in heart rate and cardiac output caused by the atropine-like action of both groups. The increase in heart rate and cardiac output caused by the atropine-like action of these relaxant drugs differed in the hypercapnic and hypocapnic group of dogs, with the more pronounced response in the latter group. The duration of the chronotropic changes was the same in both groups.
Br J Anaesth 1977 Dec
PMID:Changes in myocardial performance induced by pancuronium and gallamine in hypercapnic and hypocapnic dogs. 58 99

The sign of a traumatically caused alveolar hyperventilation in severe cranio-cerebral injury is a respiratory alcalosis as well as hypoxia and hypoxemia in the arterial as well in the cerebral veneous blood. The combination of decreased oxygen tension or saturation and hypocapnia can exist for several days and in a lethal course transform into a combined metabolic respiratory acidosis with increasing carbonic acid tension and so initiate the prefinal state. The extremely pathological blood gases are usually the first sign of shock-specific changes of the lung. The most impressing changes of the cerebrospinal fluid are the metabolic acidosis in combination with a diminished oxygen tension and tissue hypoxia of the brain. The acidosis of cerebrospinal fluid in severe brain injury is not only of prognostic but also of therapeutical importance. The treatment of the acidosis of cerebrospinal fluid by intrathecal administration of buffering substances in severe brain injuries and its sequelae can have a favourable influence on the cerebral circulation and brain metabolism.
Fortschr Med 1976 Dec 16
PMID:[Cerebrospinal fluid changes in severe craniocerebral injury and their therapy]. 101 May 21

The respiratory frequency, tidal volume and ventilization responses of 20 conscious cats to hypoxia, at controlled levels of alveolar CO2, revealed a characteristic steady state response in the majority of animals which indicated a negative interaction of stimuli on tidal volume and minute volume of ventilation, but a positive interaction on frequency. Another series of studies, conducted on seven conscious cats, sought to identify hypoxic response thresholds and depression thresholds, by determining responses over a wide range of hypoxic stimulus intensities, and at different controlled alveolar PCO2. Response threshold was at about 65 torr PAO2. Under eucapnic conditions, ventilation began to fail at PAO2 about 30 torr due to failure of tidal volume. The frequency continued to increase even in the lowest range of PAO2. With hypocapnia no failure of ventilation, frequency, or tidal volume was seen even at the lowest PAO2, but with hypercapnia, the tidal volume began to fail at PAO2 about 50 torr. The minute volume however, continued to increase into the lowest range of PAO2, because the frequency continued to respond at a rate greater than the tidal volume was failing. The results are discussed in terms of interactive depression manifest through the coupled responses of peripheral and central mechanisms.
Respir Physiol 1976 Dec
PMID:Hypoxia and carbon dioxide as separate and interactive depressants of ventilation. 101 31

Of 16 patients with hyperventilation syndrome (HVS), 11 experienced hypoxemic episodes (defined as PaO2 < or = 60 Torr or SaO2 < or = 90%). To investigate the relationship between hypoxemia in HVS patients and their hypoxic ventilatory response (HVR), we examined 9 of 11 HVS patients who experienced hypoxemic episodes after acute hyperventilation attacks. In order to investigate the genesis of hypoxemia after hyperventilation, we also examined minute ventilation and visual analog scale (VAS) scores representing the sensation of dyspnea at the start and at 70% arterial O2 saturation (SaO2) during HVR in 9 normal subjects under isocapnia and hypocapnia following voluntary hyperventilation (VHV). The HVR of 9 HVS patients who experienced hypoxemic episodes was normal. In 9 normal subjects, minute ventilation and VAS scores representing the sensation of dyspnea at 70% SaO2 during HVR were higher under isocapnia than under hypocapnia following VHV (p < 0.01). VAS scores taken during the HVR immediately following VHV and at 70% SaO2 were not significantly different. HVR and VAS scores representing the sensation of dyspnea were decreased under hypocapnia following VHV. These reductions were thought to be the main factors responsible for the genesis of hypoxemia following acute hyperventilation attacks in HVS patients. We conclude that hypoxemia is an important clinical sign in HVS patients, and it is important to investigate the breathing and chemical drive under hypocapnia, in order to understand the chemical regulation of breathing in HVS patients.
Nihon Kyobu Shikkan Gakkai Zasshi 1992 Dec
PMID:[Hyperventilation syndrome]. 130 18

Variation of PCO2 with concomitant changes in extracellular pH (pHo) may modulate cerebrovascular resistance, but the direct actions of carbon dioxide and pHo on human cerebral arteries are unknown. In this study, we have evaluated the effects of different carbon dioxide tensions (2.7, 4.2 and 7.2 kPa) with either fixed (pHo = 7.44) or concomitant changes in pHo, on contractions induced by depolarization (potassium) or receptor stimulation (prostaglandin F2 alpha) in isolated human pial arteries. Isolated changes in PCO2 had no significant effect on either potency (unchanged EC50 value) or the maximum response (Emax) in potassium-contracted arteries. Hypercapnia with uncompensated pHo significantly decreased both EC50 and Emax values, whereas uncompensated hypocapnia significantly increased the EC50 value without any effect on Emax. Concentration-response curves induced by prostaglandin (PG) F2 alpha were shifted significantly to the right (increased EC50 = decreased potency) during both hypo- and hypercapnia, independent of changes in pHo. The maximal responses were enhanced significantly during hypocapnia (Emax = 110 (SEM 2)%), but this enhancement was converted into a slight attenuation when pHo was compensated (Emax = 92 (4)%). Hypercapnia, with or without compensation of pHo, decreased the Emax values to 69 (16)% and 73 (9)%, respectively. We conclude that hypocapnia increases contractility in human pial arteries--an effect which is reversed by compensation of pHo. In contrast, the hypercapnic decrease of PGF2 alpha-induced contractions appears to be independent of pHo. The results confirm a relationship between contractility and pHo, but do not exclude a direct action of carbon dioxide in receptor-stimulated arteries.
Br J Anaesth 1992 Dec
PMID:Modulation by carbon dioxide and pH of the contractile responses to potassium and prostaglandin F2 alpha in isolated human pial arteries. 146 6

With a level of hypoglycemia (1-1.5 mM) that does not alter cerebral O2 uptake and glucose uptake in dogs, induction of hypocapnia may cause severe electroencephalographic (EEG) abnormalities. The aim of this study was to determine the effect of hypoglycemia (blood glucose = 1.1 +/- 0.1 mM) and hypocapnia (arterial PCO2 = 15 +/- 1 mmHg) on cerebral ATP, phosphocreatine, and intracellular pH (pHi; 31P magnetic resonance spectroscopy), cerebral blood flow (CBF; radiolabeled microspheres), global O2 uptake, and glucose uptake in anesthetized dogs. Neither hypoglycemia nor hypocapnia alone altered brain high-energy phosphates, pHi, O2 or glucose uptake or caused major EEG abnormalities. Hypocapnia alone decreased CBF to 62 +/- 4% of control. The combination of hypoglycemia and hypocapnia did not decrease CBF (85 +/- 6% of control), and O2 and glucose uptake were unchanged. During hypocapnic hypoglycemia, isoelectric EEG was seen in 40% of animals, ATP and phosphocreatine decreased to 38 +/- 12 and 43 +/- 12% of control, respectively, while pHi increased from 7.13 +/- 0.05 to 7.43 +/- 0.09. The increase in pHi was related reciprocally to the decrease in venous PCO2, indicating little change in intracellular bicarbonate concentration ([HCO3-]i). With normoglycemic hypocapnia, in contrast, estimated [HCO3-]i decreased 57 +/- 1%. These data suggest that active regulation of pHi during normoglycemic hypocapnia is impaired during hypoglycemic hypocapnia associated with decreased ATP.
Am J Physiol 1992 Dec
PMID:Hypocapnic-hypoglycemic interactions on cerebral high-energy phosphates and pH in dogs. 148 10

In a five year period, 39 children (29 boys, 10 girls) aged 2 months to 13 years (mean 7.8 years) were studied who had suffered a major head injury (29 road traffic accidents, six falls, and four non-accidental injury). The injury had been assessed clinically and by cranial computed tomography or cranial ultrasound (in a single baby of 2 months). Initial Glasgow coma scores for all subjects ranged from 3-11 (mean 5.5), intact survivors 5-11 (7.4), minor handicap 4-11 (6.1), major handicap 3-6 (4.3), fatalities 3-6 (4.1). All were treated with sedation, paralysis, hyperventilation (arterial carbon dioxide tension 3.0-3.5 kPa), intracranial pressure monitoring and moderate body surface hypothermia to 32 degrees C. Nine children died and 30 survived (nine intact, 13 minor disability, and eight major disability). The worst cerebral perfusion pressure was over 40 mm Hg in all but one survivor, and less than 40 mm Hg in seven of nine fatalities. Severe hypocapnia both in the first 24 hours and overall was correlated with poor outcomes (dead or major disability), as were bilateral contusions or diffuse axonal injury.
Arch Dis Child 1992 Dec
PMID:Management and outcome of severe head injuries in the Trent region 1985-90. 833 80

In the present study, changes in frequency and amplitude of the rhythmic variations (vasomotion) in blood flow in the intact cerebral circulation of the rat were investigated using laser-Doppler flowmetry (LDF) during stepwise decrease in mean arterial blood pressure (MABP) and hyper- and hypocapnia. Experiments were performed on 12 adult Sprague-Dawley rats of either sex, anesthetized with alpha-chloralose. The rat's head was fixed on a stereotaxic frame and a small hole was made in the parietal bone but the dura and a thin inner bone layer were kept intact. The microvascular blood flow of the parietal cortex on the right or on both sides was continuously recorded by the laser-Doppler flowmeter (Periflux PF2B, Perimed, Stockholm, Sweden). The cerebral circulation of the rat exhibited vasomotion in control conditions with a frequency of 8-10 cycles per minute (cpm) and an amplitude of 5-10% of the cerebral blood flow (CBF). No significant changes in CBF could be detected when the MABP was above 60 mmHg, but it decreased significantly when MABP was reduced below 50 mmHg. However, during stepwise pressure reduction the vasomotion frequency decreased progressively while its amplitude showed a reversed U-shaped curve with a peak at 60-80 mmHg. During hypercapnia, the rhythmical oscillations showed a decrease in both frequency and amplitude, whereas during hypocapnia their frequency did not change but their amplitude increased. These results support the hypothesis that the vasomotion frequency might be dependent of the wall tension and cellular pH while its amplitude could be related to decreased tissue oxygenation.
Acta Physiol Scand 1992 Dec
PMID:Vasomotion in the rat cerebral microcirculation recorded by laser-Doppler flowmetry. 149 61

Hyperventilation causes hypocapnia and respiratory alkalosis and thereby predisposes to coronary vasoconstriction and cardiac arrhythmia. Diagnostic methods for use between episodes have not been established. In this study of 100 patients and 25 control subjects the resting end-tidal PCO2 (Pet CO2) levels and the results of a forced hyperventilation test did not show a significant difference between the groups. However the patients hyperventilated more profoundly in response to emotional stimulation, and were less aware of inappropriate breathing and hypocapnia. It is suggested that these differences should be accommodated in cardiac rehabilitation.
J R Soc Med 1990 Dec
PMID:Failure of perception of hypocapnia: physiological and clinical implications. 212 16


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