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

Changes in the ability to discriminate speech from a eucapnic state to hyperventilation and hypercapnia were investigated. Standard speech audiometric techniques were employed to determine the speech reception threshold and the speech discrimination values, while respiratory conditions were varied and measured utilizing a mixed-gas breathing method. Respiratory parameters were similar to those encountered in aircraft personnel who experience oxygen/pressure system malfunction. The results of the study suggest no significant change in the speech reception threshold while in a hyperventilated or hypercapnic state. The speech discrimination results, however, suggest a significant performance decrement while in a state of hyperventilation.
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PMID:Hearing under stress: II. Effect of hyperventilation and hypercapnia on speech discrimination. 83 14

Increased body temperature stimulates hyperventilation in man but little is known about its effects on ventilatory responsiveness to hypoxia. Hence this study examined the effects of hyperthermia on hypoxic ventilatory response (HVR), hypercapnic ventilatory response (HCVR), and oxygen consumption (VO2). Six fasting subjects had these variables measured under basal conditions and at two levels of hyperthermia. Hypoxic ventilatory response was measured as the shape paramater A of the VE/PAO2 curves. Since hyperthermia produces hyperventilation and, therefore, hypocapnia, HVR was measured at the hyperthermic (hypocapnic alveolar CO2 tension (PACO2) and at the basal (normothermic) PACO2. Hypoxic ventilatory response (A) increased when measured at basal PACO2 levels, from 113 +/- 8.8 (S.E.M.) to 189 +/- 21.8 at 0.7 degrees C. and 240 +/- 34.0 at + 1.40 degrees C. (P less than 0.005). HVR measured during hyperthermic hypocapnia also increased at each temperature level but did not reach statistical significance (P = 0.1). Hypercapnic ventilatory response, as measured by the slope S of VE/PACO2 lines, increased significantly at each temperature elevation (P less than 0.025). We conclude that raising body temperature causes a significant augmentation of ventilatory responses to hypoxia (during normothermic PACO2 conditions) and to hypercapnia.
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PMID:Effects of hyperthermia on hypoxic ventilatory response in normal man. 83 15

Thirty-two patients were evaluated within 24 hours of admission for 36 episodes of acute respiratory failure (arterial oxygen pressure less than or equal to 50 mm Hg). Clinical data, spirometric determinations, blood gas analysis, and synchronization of chest (rib cage) and abdominal (diaphragmatic) breathing movements were studied. All patients were initially treated with controlled oxygen therapy. In 25 episodes the patients recovered without intubation (successes). In nine episodes the patients required intubation and assisted ventilation; two of these patients died. Two patients died without intubation. The 25 successful episodes were compared with the 11 requiring intubation or associated with death (failures). The breathing pattern proved to be the best single factor for predicting success or failure (77 percent correct prediction). The breathing pattern plus the arterial carbon dioxide tension on admission was the best two-factor guide (86 percent correct prediction). Patients with asynchronous breathing and severe hypercapnia are so unlikely to do well with a program of controlled oxygen therapy that preparations for intubation and assisted ventilation should be made on admission and such measures should be instituted at the first sign of deterioration.
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PMID:Prospective study of controlled oxygen therapy. Poor prognosis of patients with asynchronous breathing. 85 43

1. Three healthy young males were maintained for sessions of about 1 hr in a state of mild asphyxia (PA,O2 approximately 55, PA,CO2 approximately 45 torr), i.e. with moderately strong drives from both arterial and intracranial chemoreceptors. Tidal volume (VT), breath duration (TT) and duration of inspiration (TI) were recorded, and ventilation (VE) and duration of expiration (TE) were derived breath by breath. 2. The arterial chemoreceptor component of the drive was briefly and abruptly reduced, perhaps silenced, by three separate procedures: the inspiratory pathway was connected for two breaths to a second gas supply line containing, B, hypoxia with Pi,CO2 zero (removal of hypercapnia with maintained hypoxia); C, pure oxygen (removal of asphyxia); and D, oxygen with 40 torr added PCO2 (removal of hypoxia with maintained hypercapnia). In controls, A, the second inspiratory line contained the maintenance mixture so that the switch involved no change of inspiratory gas composition. Each type of test was repeated twenty-four times on each subject. 3. Responses attributable to silencing of arterial chemoreceptors (i.e. with 1 1/2--3 breath latencies about equal to the lung-to-ear circulation time) are reported elsewhere. 4. Very small responses, occurring only half a respiratory cycle after first inhalation of the test mixture, were detected by pooling all responses of each kind from all subjects. When hypoxia was withdrawn, with (C) or without (D) simultaneous withdrawal of hypercapnia, VT and VE were reduced by 3 and 2% respectively, probably because gas mixtures containing high oxygen concentrations are appreciably more viscous than hypoxic mixtures and so require more effort to breathe in and out. When hypercapnia was withdrawn with (C) or without (B) simultaneous withdrawal of hypoxia, TE was significantly lengthened (mean, + 65 +/- 18 msec), 5. The change of TE was discussed in relation to known effects of CO2 on airway receptors in the dog.
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PMID:Very small, very short-latency changes in human breathing induced by step changes of alveolar gas composition. 85 5

Massive pulmonary hemorrhage is a complication which frequently leads to death in newborns with conditions susceptible to surgical treatment. Out of 112 postmortem studies, focal hemorrhage was found in 38 (33.9%) and massive in 34 cases (30.3%). In this series, congenital anomalies were found in digestive tract in 70.5% of the patients. Prematurity andlow weight were not important factors as was hypoxia, which was evident in 70.5% of the cases. Manifestations of respiratory insufficiency, shock, rales in lung fields, bleeding in other places different from the lung, blood leaking through upper respiratory ducts, are all clinical features of diagnostic aid. Disturbances in coagulation tests were detected, the same as drop in figures of hemoglobin, acidosis, hypoxia and hypercapnia. Gram-negative germs, with a predominance of Klebsiella, were isolated in 33 cultures. The radiographic finding with reticulogranular image was unfrequent. Among other precipitating factors of pulmonary hemorrhage, identification was made of the surgical disease by itself, surgical and anesthetic procedures, of ventilatory assistance and therapy with oxygen at high concentration for long periods of time.
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PMID:[Massive pulmonary hemorrhage in surgical pathology of the newborn infant]. 87 35

1. Adrenal and pancreatic endocrine responses to hypoxia and hypercapnia, of differing degrees of intensity, have been examined in conscious, unrestrained calves 3-5 weeks after birth. 2. The outputs of cortisol and corticosterone from the right adrenal gland were found to vary inversely with arterial Po2 between 17 and 55 mmHg. Significant increase in mean adrenal blood flow was not observed at arterial oxygen tensions above about 30 mmHg. 3. Release of physiologically effective amounts of catecholamines from the adrenal medulla occurred only in response to intense hypoxia (arterial Po2 17-1 +/- 2-8 mmHg) and was effectively abolished by section of both splanchnic nerves. Release of pancreatic glucagon in response to such intense hypoxia was unaffected by section of both splanchnic nerves and administration of atropine. In contrast, the rise in plasma pancreatic glucagon concentration during less intense hypoxia was abolished by autonomic blockade. 4. Hypercapnia produced by inhalation of either 5% or 10% CO2 for 30 min stimulated maximal release of adrenal glucocorticoids and caused a substantial rise in plasma glucagon concentration. In contrast, the adrenal medulla was found to be extremely resistant to hypercapnia. Significant release of catecholamines was only observed during intense hypercapnia (inhalation of 10% CO2) and noradrenaline was invariably found to be the predominant amine. 5. The results of these experiments show how endocrine responses to hypoxia and hypercapnia are graded in the conscious calf. Of the mechanisms we have examined the pituitary-adrenal cortical axis is the most sensitive and the adrenal medulla the most resistant, while the pancreatic alpha cell occupies an intermediate position.
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PMID:Adrenal and pancreatic endocrine responses to hypoxia and hypercapnia in the calf. 89 34

Cerebral hemodynamics, vascular reactivity, and metabolic alterations were studied in anesthetized, spontaneously respiring dogs for 4-6 hr of gram-negative endotoxin shock. Cerebral venous outflow (cerebral blood flow) was measured directly from the cannulated confluence of the sagittal, straight, and lateral sinuses, with the lateral sinuses occluded. Cerebral blood flow and cerebral perfusion pressure decreased immediately upon administration of 1,2, or 5 mg/kg endotoxin and consistently remained below control values. By the fourth hour of shock, cerebral blood flow was decreased 37, 48, and 45% respectively. Cerebral vascular resistance initially decreased, then progressively increased to levels significantly above control, and it was primarily responsible for the reduced cerebral blood flow in the later stages of shock. Cerebral autoregulatory and "venous-arteriolar" responses were well maintained, although cerebral vascular reactivity to arterial hypercapnia was depressed. Cerebral venous blood pH and pO2 decreased, and arterial-venous differences of percentage oxygen saturation, total CO2, and HCO3 increased. These alterations in cerebral vascular hemodynamics and tissue acid-base balance indicate that cerebral ischemia and resulting acidosis occur during canine endotoxin shock.
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PMID:Cerebral hemodynamics, vascular reactivity, and metabolism during canine endotoxin shock. 92 8

Four patients with ptosis, external ophthalmoplegia, and ragged-red fibers on muscle biopsy were found to have decreased ventilatory responses to hypoxia and hypercapnia. Respiratory muscle weakness was not responsible for these findings since these responses were normal in muscle disease control patients. An altered metabolic state also can cause diminished ventilatory response, but overall oxygen consumption data in the ragged-red fiber patients were normal. The decreased ventilatory responses may be clinically significant because two of the ragged-red fiber patients had episodes suspicious of hypoventilation with poor response to hypoxia.
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PMID:Depressed ventilatory response in oculocraniosomatic neuromuscular disease. 94 69

The effects of hypercapnia and hypocapnia on haemodynamics, coronary blood flow, and lactate metabolism were evaluated in anaesthetized closed chest dogs. Coronary flow increased with increased pCO2 and oxygen consumption and left ventricular performance were well maintained. Hypocapnia reduced coronary flow, oxygen consumption, and left ventricular functional performance.
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PMID:Effect of hypercapnia and hypocapnia on myocardial blood flow and performance in anaesthetized dogs. 95 18

The influence of brain norepinephrine on cerebral metabolism and blood flow was examined because exogenous norepinephrine, administered in a way that the blood-brain barrier is bypassed, has been shown to effect pronounced changes in the cerebral circulation. Reserpine (40 mug/kg, by intracarotid infusion) was administered in order to release brain norepinephrine in five anesthetized baboons. Reserpine significantly increased cerebral oxygen consumption (23%) and cerebral blood flow (50%). This response lasted for approximately 60 min. In a further five animals, effects of central beta-adrenoreceptor blockade were studied. Pro pranolol (12 mug/kg-min) produced an immediate, significant reduction in both cerebral oxygen consumption (40%) and cerebral glucose uptake (39%). Cerebral blood flow was reduced minimally. However, the responsiveness of the cerebral circulation to induced hypercapnia was severely attenuated from a gradient of 3.22 before, to 1,11 after, administration. These experiments suggest that central norepinephrine can influence the cerebral circulation primarily through noradrenergic effects on brain metabolism.
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PMID:Influence of endogenous norepinephrine on cerebral blood flow and metabolism. 96 2

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