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Query: UMLS:C0020440 (hypercapnia)
 7,939 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypoxia and the hypercapnia were produced in anesthetized dogs by artificial respiration with appropriate gas mixtures, and a study was conducted of the effects of these conditions on various metabolic parameters, viz. catecholamines, renin activity, lactate, pyruvate, cortisol, non-esterified free fatty acids (FFA), and ammonia, in the plasma of the arterial blood. Hypercapnia caused a distinct increase in catecholamine concentrations, renin activity and ammonia, and a decrease in lactate and pyruvate; cortisol and FFA levels were only slightly altered. Hypoxia increased lactate, pyruvate and--though only to a slight extent--FFA, cortisol and NH3. The changes induced by hypercapnia were chiefly attributable to activation of the sympathico-adrenal system; those induced by hypoxia were not.
Schweiz Med Wochenschr 1977 Dec 10
PMID:[Metabolic effects of acute experimental hypoxia and hypercapnia]. 92 42

Twelve patients with predominantly obstructive type sleep apnea underwent cardiac catheterization, hemodynamic monitoring, and arterial blood gas analysis during wakefulness and sleep. Abnormalities during wakefulness included systemic hypertension in four of 12, exercise-induced mild pulmonary hypertension in five of 12, and alveolar hypoventilation in one. During sleep nine patients had cyclic elevations of arterial pressure with each apneic episode, exceeding 200 mm Hg systolic in three of 12. Pulmonary artery pressures increased in 10 of 12, exceeding 60 mm Hg systolic in five. Marked degrees of hypoxemia (arterial P02, less than 50 mm Hg in eight of 12) and moderate hypercapnia with respiratory acidosis were associated with these hemodynamic changes. Cyclic upper airway obstruction during sleep may result in hypercapnia, acidosis, and pronounced hypoxemia, which can lead to hemodynamic abnormalities during sleep. Sustained pulmonary hypertension and possibly systemic hypertension may follow. Tracheostomy is an effective therapy and is recommended to symptomatic patients who have predominantly obstructive apnea but no relievable anatomic cause of upper airway obstruction.
Ann Intern Med 1976 Dec
PMID:Hemodynamics in sleep-induced apnea. Studies during wakefulness and sleep. 99 7

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

1. The blood-bathed organ technique was used to study the release of catecholamines, angiotensin II and prostaglandin-like (PL) substances into the circulation during hypercapnia and after haemorrhage in anaesthetized dogs. 2. Elevated blood concentrations of noradrenaline, angiotensin II and prostaglandin-like substances have been detected during both experimental conditions. 3. The rise of arterial blood pressure during hypercapnia and after haemorrhage was associated with elevated concentrations of angiotensin II in the blood and could be abolished by inhibition of the angiotensin I-converting enzyme with SQ 20881. 4. The compensation of arterial pressure during both stresses was significantly impaired by release of prostaglandin-like substances; it could be restored by inhibition of prostaglandin biosynthesis with indomethacin. 5. The results indicate that activation of the renin-angiotensin system represents the major humoral mechanism for the maintenance of arterial pressure during hypercapnic acidosis and after haemorrhage.
Clin Sci Mol Med Suppl 1976 Dec
PMID:Humoral response and blood pressure regulation during hypercapnia and haemorrhage in dogs. 107 98

Previous clinical studies pertaining to blood gas changes following nasal packing have agreed that the packing is frequently followed by hypoxia but have found differing responses in arterial PCO2 to nasal packing. This is of more than incidental importance, because the mechanisms by which hypoxia develops should determine the method by which the hypoxia is treated. The various causes of hypoxia are reviewed, and a method of instituting an indwelling systemic arterial catheter for the purpose of drawing sequential blood samples for gas determinations is described. Using the indwelling arterial catheters, arterial blood was sampled from a series of awake, unsedated dogs before, during, and after the dogs were subjected to anterior and posterior nasal packing. Blood gas determinations showed significant depressions of PO2 and elevations of PCO2 during the period when the packing was in place. The altered blood gas values quickly returned to essentially normal (control) values after the packing was removed. In order to help assess the degree of lower airway response to an upper airway stimulus as a cause of these blood gas changes, the protocol was repeated in previously laryngectomized dogs. In these animals no consistently significant change occurred in either the PO2 or PCO2 following either the packing or its removal. Our findings suggest that airway obstruction (and hypoventilation) rather than increased bronchomotor tone is the main cause of hypoxia in awake dogs with anterior and posterior packing. Because of the likelihood of hypoventilation and significant hypercarbia in patients in whom nasal packing is employed, we discourage the routine usage of oxygen, unless blood gas levels are checked prior to the institution of oxygen therapy.
Laryngoscope 1975 Dec
PMID:Arterial blood gas changes following nasal packing in dogs. 110 40

The ventilatory responses to isocapnic hypoxia and hypercapnia were studied in seven chronically tracheostomized dogs awake and during anesthesia with pentobarbital (30 mg/kg, iv), ketamine, or thiopental (10 and 15 mg/kg, respectively, followed by infusion). Isocapnic hypoxic ventilatory drive (HVD) was expressed as the parameter A such that the higher the A, the greater the hypoxic drive. HVD(A) was significantly reduced from 259 +/- 28 (mean +/- SEM) in awake dogs, to 96 +/- 14 after pentobarbital, 161 +/- 27 after thiopental, and 213 +/- 23 after ketamine. Hypercapnic ventilatory drive (HCVD) as measured by S (slope of the VE-PACO2 response curve) was significantly reduced from 1.3 +/- .32 in awake dogs to 0.4 +/- .13 after pentobarbital, 0.5 +/- .12 after thiopental, and 0.6 +/- .11 after ketamine. In addition, hypercapnia-induced augmentation of hypoxic drive was markedly diminished by the two barbiturates but was unaffected by ketamine. Therefore, ketamine at this dose level afforded greater protection during exposure to hypoxia than did barbiturates. (Key words: Ventilation, hypoxic response; Hypoxia, ventilation; Oxygen, ventilatory response; Carbon dioxide, ventilatory response; Anesthetics, intravenous, ketamine; Anesthetics, intravenous, thiopental; Hypnotics, barbiturates, pentobarbital.)
Anesthesiology 1975 Dec
PMID:Hypoxic ventilatory drive in dogs during thiopental, ketamine, or pentobarbital anesthesia. 119 May 38

In dogs, plasma renin activity (PRA) was increased by anesthesia, by hypercapnia and by extreme hypoxia (paO2 47.6 mm Hg). Relatively moderate hypoxia (paO2 47.6 mm Hg) and artificial respiration had no appreciable influence on PRA. It appears that the sympathomimetic stimulus of CO2 has an important bearing on PRA.
Schweiz Med Wochenschr 1975 Dec 20
PMID:[Proceedings: Experimentally induced effects on the plasma renin activity]. 121 77

Two series of experiments were performed on anesthetized dogs to study the steady-state ventilatory responses of the central respiratory mechanism to hypoxia and hypercapnia at three different levels of cartoid body stimulation. A cross-perfusion technique was used to perfuse a recipient dog's carotid bodies with blood of desired oxygen tension from a donor dog. Central hypoxia and hypercapnia were induced by allowing the recipient dog to spontaneously breathe specific gas mixtures for 6-min periods.
Respir Physiol 1975 Dec
PMID:Central ventilatory responses to O2 and CO2 at three levels of carotid chemoreceptor stimulation. 122 67

The effects of hypoxia and superimposed hypercapnia or hypertension during hypoxia on brain tissue water content, pH, and electric activity were studied in Sprague-Dawley and stroke-prone spontaneously hypertensive rats. Auditory brainstem responses and sensory evoked potentials were recorded during the experiment as the indices for cerebral oxygen metabolism. The brains were removed immediately, 1 day, and 2 days after hypoxic insult for gravimetric study. The brain water content increased in all groups on the 1st and 2nd days after hypoxia. The percentage change from the control water content increased only on the 1st day in hypoxic rats. In contrast, it increased on both the 1st and 2nd days after hypoxia in hypercapnic or hypertensive rats. The evoked potentials of hypoxic and hypercapnic-hypoxic rats showed that peak latencies were prolonged significantly during hypoxia and recovered 1 and 2 days after hypoxia. The brain tissue pH decreased during hypoxia and recovered after hypoxia. This study suggests that brain edema develops within 2 days of hypoxic insult and that superimposed hypercapnia or hypertension promotes the brain edema.
Neurol Med Chir (Tokyo) 1992 Dec
PMID:The effect of hypoxia on brain edema--the promoting effect of superimposed hypercapnia or hypertension. 128 17

Preterm infants may demonstrate impaired ventilation during oral feeding with resultant hypoxemia and hypercarbia. This study was designed to determine whether infants activate a representative upper airway muscle, the ala nasi, in response to these ventilatory changes. Ten preterm infants (postconceptional age at study 35 +/- 4 wk, weight 2.2 +/- 0.1 kg) were studied during a control period, continuous feeding, subsequent intermittent feeding, and a period of nonnutritive sucking. Nasal airflow was measured with a pneumotachometer to quantify minute ventilation. The alae nasi electromyogram (EMGAN) was recorded with surface electrodes, and sucking pressure was detected by a catheter in the feeding nipple. End-tidal CO2 and O2 saturation were also recorded during each period. The percentage of breaths associated with EMGAN activity increased from 41 +/- 13% during the control period to 95 +/- 5% and 93 +/- 7% during continuous and intermittent sucking, respectively (p < 0.05). Eighty-seven +/- 5% of EMGAN activity occurred during inspiration. During continuous and intermittent sucking, the amplitude of EMGAN activity also increased (6.8 +/- 5.2 and 6.7 +/- 4.0 arbitrary units/breath, respectively) compared with the control period (2.4 +/- 2.8 units/breath, p < 0.05). In association with the increase in EMGAN activity, O2 saturation fell from 98 +/- 1% in the control period to 95 +/- 1% during both continuous and intermittent feeding (p < 0.05), and minute ventilation fell from 274 +/- 80 mL/min/kg during the control period to 190 +/- 81 and 208 +/- 57 mL/min/kg during continuous and intermittent feeding, respectively (p < 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
Pediatr Res 1992 Dec
PMID:Alae nasi activation in preterm infants during oral feeding. 128 58


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