UMLS:C0020440 - FACTA Search

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

We studied 49 consecutively admitted infants of less than 34 weeks' gestation to analyze the role of several maternal, intrapartum, and neonatal factors associated with the occurrence of periventricular-intraventricular hemorrhage (PIVH). To detect PIVH, ultrasound studies were performed every eight hours during the first three days of life and every 12 hours during the following four days. In 20 infants (41%) PIVH was detected. Of these 20 cases, 30% were diagnosed immediately after birth and 55%, 70%, 90%, and 100% after 24, 48, 72, and 108 hours, respectively. Hypoxia, hypercapnia, and acidosis were the most important factors associated with the development of PIVH. Hypothermia was also an antecedent. Suctioning, serum osmolality, weight loss, transfusions, pneumothorax, patent ductus arteriosus, and bolus infusions with sodium bicarbonate were not associated with the onset of PIVH.
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PMID:Perinatal factors and periventricular-intraventricular hemorrhage in preterm infants. 353 62

The antihypoxic properties of ibuprofen, diclofenac sodium, acetylsalicylic acid and phenylbutazone have been studied. Ibuprofen significantly increases survival of mice in the model of hypoxic hypoxia with hypercapnia. In addition, ibuprofen and diclofenac sodium possess antihypoxic protective activity in the models of circulatory and anoxic hypoxia in rats.
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PMID:[Experimental study of the antihypoxic properties of ibuprofen and other nonsteroidal anti-inflammatory preparations]. 359 52

Our purpose was to examine the influence of steady-state changes in chemical stimuli, as well as discrete peripheral chemoreceptor stimulation, on abdominal expiratory motor activity. In decerebrate, paralyzed, vagotomized, and ventilated cats that had bilateral pneumothoraces, we recorded efferent activity from a phrenic nerve and from an abdominal nerve (cranial iliohypogastric nerve, L1). All cats showed phasic expiratory abdominal nerve discharge at normocapnia [end-tidal PCO2 38 +/- 2 Torr], but small doses (2-6 mg/kg) of pentobarbital sodium markedly depressed this activity. Hyperoxic hypercapnia consistently enhanced abdominal expiratory activity and shortened the burst duration. Isocapnic hypoxia caused inhibition of abdominal nerve discharge in 11 of 13 cats. Carotid sinus nerve denervation (3 cats) exacerbated the hypoxic depression of abdominal nerve activity and depressed phrenic motor output. Stimulation of peripheral chemoreceptors with NaCN increased abdominal nerve discharge in 7 of 10 cats, although 2 cats exhibited marked inhibition. Four cats with intact neuraxis, but anesthetized with ketamine, yielded qualitatively similar results. We conclude that when cats are subjected to steady-state chemical stimuli in isolation (no interference from proprioceptive inputs), hypercapnia potentiates, but hypoxia attenuates, abdominal expiratory nerve activity. Mechanisms to explain the selective inhibition of expiratory motor activity by hypoxia are proposed, and physiological implications are discussed.
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PMID:Hypoxia inhibits abdominal expiratory nerve activity. 362 26

Movement of chloride from blood to cerebrospinal fluid (CSF) is one of the factors that may be involved in regulation of CSF [Cl-], which is important to CSF acid-base balance. We made quantitative measurements of the unidirectional flux of radiolabeled chloride between blood and CSF in anesthetized dogs, using 38Cl, a short-lived isotope (half-life 37.3 min). This allowed multiple studies to be performed in a given animal. A three-compartment model for the blood, CSF, brain extracellular fluid, and ventriculocisternal perfusion system was used to determine the flux rate. With normocapnia, the flux was 0.01.1 min-1. The influx could be reproducibly measured for three separate determinations in the same animal over a period of 6 h, being 98 +/- 6% of the control first run on the second run and 113 +/- 6% on the third. Furosemide and bumetanide, inhibitors of sodium-coupled chloride movement, lowered the flux to 43 +/- 3% and 55 +/- 6% of control, respectively. The combination of hypercapnia and furosemide lowered the influx to 63 +/- 9% of control. These results indicate that a major mechanism of chloride entry into CSF is sodium-coupled chloride transport.
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PMID:Chloride flux from blood to CSF: inhibition by furosemide and bumetanide. 369 96

The ionic compensatory response to CO2 breathing for 3 days was studied on intact and cystectomized turtles at 10 and 20 degrees C. Arterial blood gases, pH, ionized calcium, and the plasma concentrations of Na+, K+, Cl-, total Ca2+, and total Mg2+ were measured periodically. At 20 degrees C, ureteral urine was also collected from bladderless turtles and was analyzed for pH, ions, NH3+, total CO2, osmolality, and titratable acid. When CO2 was breathed there was a compensatory change in the strong-ion difference as manifest by an increase in plasma [HCO3-] that was approximately 10 meq/l both in the 10 and 20 degrees C turtles. The only significant associated strong-ion changes observed consistent with the ionic compensatory response were increases in total and ionized Ca2+ and total Mg2+. These results were unaffected at either temperature by surgical removal of the urinary bladder. Urine collected from cystectomized turtles showed no compensatory increase in acid excretion during hypercapnia; in fact, changes occurred in the opposite direction. Urinary excretion of HCO3- and urine pH increased significantly, whereas titratable acidity decreased significantly. No significant change occurred in ammonia excretion over the three days of hypercapnia. These data argue against compensatory roles for the kidneys and urinary bladder in this species and point to internal ionic exchanges involving bone and shell.
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PMID:Ionic compensation with no renal response to chronic hypercapnia in chrysemys picta bellii. 378 4

In unanaesthetized fetal lambs at 125-135 days gestation in utero central acidosis caused by perfusion of the cerebral ventricular system with a solution containing less than 1 mM-HCO3- (cerebrospinal fluid (c.s.f.) pH 6.98) or intravenous infusion of ammonium chloride (c.s.f. pH 7.1) produced an increase in the depth and frequency of episodic breathing but no change in electrocortical activity, heart rate or arterial pressure. Administration of prostaglandin synthetase inhibitors, sodium meclofenamate (0.8-10 mg/kg I.V. or 0.6-2.6 mg/kg intracerebrally) or acetylsalicylic acid (6.7 mg/kg I.V.) caused prolonged episodes of fetal breathing during low and high voltage electrocortical activity, with a large increase in breath amplitude. Blood gas values, heart rate, blood pressure, electrocortical activity and eye movements were not altered. In fetuses whose brain stems had been sectioned in the upper pons or the inferior colliculus, sodium meclofenamate induced prolonged deep breathing. Intravenous prostaglandin E2 abolished the continuous breathing induced by meclofenamate, but not breathing movements enhanced by hypercapnia or hypoxia. It is concluded that the central chemoreceptors respond to acidosis in near-term lamb fetuses qualitatively as in adult animals. Secondly, the results suggest that prostaglandin E2 and the inhibitors of prostaglandin synthesis also act centrally in the lower pons or medulla to modulate fetal breathing.
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PMID:Central stimulation of breathing movements in fetal lambs by prostaglandin synthetase inhibitors. 392 89

The increased plasma bicarbonate concentration seen in hypercapnia implies that tubular bicarbonate reabsorption must be increased in the presence of an elevated Paco2. In contrast to early reports, more recent experimental data in acute hypercapnia have been interpreted to show that the observed increment in tubular reabsorption of bicarbonate factored for glomerular filtration rate (THCO3/GFR) is largely related to the concurrent changes in renal sodium reabsorption and to the increment in the filtered load of bicarbonate, and that acute hypercapnia per se causes little or no change in the tubular handling of bicarbonate. We reexamined this question by observing the changes in renal function occurring in the presence of a moderate elevation of plasma bicarbonate concentration in two groups of dogs. In group I, the elevation occurred as a result of acute hypercapnia during the administration of an "isometric" solution; in group II, it was caused by the infusion of identical amounts of an isotonic solution with the same concentration of sodium as in group I, but a higher bicarbonate concentration, in the presence of eucapnia. A subset of group II provided controls for the decrease in renal perfusion pressure that occurred spontaneously in group I. With increasing filtered loads of bicarbonate, fractional excretion (FE) of HCO3 increased in group II, whereas it dropped markedly in group I. Furthermore, the relative reabsorption rate of HCO3 compared with that of Cl (assessed by changes in fractional reabsorption (FR) of HCO3/Cl) decreased in group II, whereas it increased in group I. Although FENa also decreased in group II, the opposite changes in FR(HCO3/Cl) could not be attributed solely to concurrent changes in sodium handling, indicating that in the presence of acute hypercapnia there is a preferential reabsorption of bicarbonate that tends to perpetuate the increase in plasma bicarbonate concentration. By contrast, THCO3/GFR rose in both groups. The data are interpreted to reveal that acute hypercapnia, although causing a drop in renal perfusion pressure and in natriuresis, also has an additional specific effect on raising preferential bicarbonate reabsorption. This effect can be detected best by monitoring changes in the anionic composition of tubular reabsorbate, whereas it may not be unveiled by following changes in THCO3/GFR. Changes in THCO3/GFR may not yield useful information regarding the integrated response of the kidney to acid-base perturbations, and the conclusions of previous studies based on changes in this parameter must be carefully reexamined.
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PMID:Effect of acute hypercapnia on renal bicarbonate reabsorption in the dog. 393 72

The effects of high dose alfentanil on the cerebral vascular responses to alterations in mean arterial pressure (MAP), arterial oxygen tension (PaO2) and arterial carbon dioxide tension (PaCO2) were studied in 17 dogs, using the cerebral venous outflow technique. In six animals anaesthetized with sodium pentobarbitone 30 mg kg-1 i.v., bolus injection of alfentanil 0.32 mg kg-1 i.v. decreased MAP without a change in cerebral blood flow (CBF). In another group of animals(n = 5) anaesthetized with pentobarbitone 30 mg kg-1 i.v. the CBF responses to changes in MAP, PaO2, and PaCO2 were studied. In a third group of animals (n = 6) anaesthetized with alfentanil 0.32 mg kg-1 i.v. plus pentobarbitone 1-2 mg kg-1 i.v. and an infusion of alfentanil 0.32 mg kg-1 h-1, the CBF response to alterations in MAP, PaO2, and PaCO2 were studied and compared with the barbiturate-anaesthetized animals. The CBF responses to hypercapnia and hypoxia in the alfentanil-anaesthetized animals were not different from those observed in animals anaesthetized with barbiturate only. The lower and upper limits of cerebral autoregulation in alfentanil-anaesthetized animals were not different from those observed in animals anaesthetized with barbiturate only. The data suggest that alfentanil, in doses sufficient to cause profound analgesia and anaesthesia, does not alter cerebral reactivity to changes in PaO2, PaCO2 and MAP.
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PMID:Effects of alfentanil on cerebral vascular reactivity in dogs. 393 29

The relative importance of pCO2 versus pH in regulating myocardial blood-flow (MBF) is not settled. Therefore, the influence of hypocapnia, hypercapnia and sodium carbonate infusion, on MBF and myocardial metabolism, has been investigated in 10 closed-chest pentobarbital anaesthetized dogs. The animals were hyperventilated, and CO2 was added to the inspiratory gas to induce normocapnia and hypercapnia. A mass spectrograph continuously measured the ventilatory gas components, and MBF was measured by the hydrogen desaturation technique with a catheter positioned in the coronary sinus. During the experiments, there were no significant alterations in heart rate, mean aortic blood-pressure, myocardial oxygen consumption or uptake of glucose and free fatty acids. During hypocapnia MBF was insignificantly reduced, while myocardial oxygen extraction increased significantly. During hypercapnia, however, MBF increased more than 40%. This increase in MBF was abolished following an infusion of sodium carbonate. Thus, in the present study, increased MBF, observed during hypercapnia, was due to the reduction in pH and not to the increase in pCO2.
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PMID:Effects of carbon dioxide and pH on myocardial blood-flow and metabolism in the dog. 393 53

The dependence of the carotid chemoreceptor responses to blood-borne stimuli on the ganglioglomerular nerve (GGN) activity was investigated in cats which were anesthetized, paralyzed and artificially ventilated. The activity of a few carotid chemoreceptor afferents from a slip or from the cut left carotid sinus nerve (CSN) and the activity of a few GGN fibers were recorded. The responses of the same chemoreceptor afferents to steady-state hypoxia at a constant paCO2 and to steady-state hypercapnia during hyperoxia were compared before and after the transection of the ipsilateral ganglioglomerular nerve (IGGN). Similarly the effects of IGGN transection on the responses of the same chemoreceptor afferents to graded doses of intravenous injections of sodium cyanide (20-60 micrograms) and nicotine (20-60 micrograms) at constant blood gas levels were studied. On the average, IGGN transection during normoxia only slightly changed the carotid chemoreceptor activity. Also, it did not significantly change the hypoxic and hypercapnic responses, and those to sodium cyanide and nicotine injections. Thus, the mean carotid chemoreceptor responses to physiological and pharmacological stimuli were largely independent of the GGN. However, certain GGN fibers were strongly stimulated by hypoxia and hypercapnia. Clearly, the total GGN traffic to the carotid body was not sufficiently strong to exert a significant control over the mean carotid chemoreceptor activity.
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PMID:Influence of ganglioglomerular nerve on carotid chemoreceptor activity in the cat. 395 Mar 26

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