Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The effect of electrically induced seizures on the permeability of the rat blood-brain barrier was investigated. The small radioactive tracers sodium (24Na+), chloride (36Cl-) carbon labelled thiourea (14C-thiourea) and glucose (14C-D-glucose) were studied in indicator dilution experiments with indium labelled diethylenetriaminepenta-acetic acid (113mIn-DTPA) as reference substance. This method allows a quantitative estimate of the transcapillary loss of solutes, the extraction (E), during a single passage through the brain. Passage of macromolecules was studied using as marker substance Evans Blue which binds to plasma albumin. In the resting state ENa, ECl, Ethiourea and Eglucose were 2.9, 4.8, 9.3 and 12.5%, respectively. During seizures and during shortlasting hypercapnia E glucose decreased while E for the other tracers was unchanged. As cerebral blood flow increased, there must be an increased transfer of test substances into the brain. This finding is in agreement with recent human studies [15]. When Evans Blue was injected intravenously prior to electroshock, there was no staining of brain tissue after one electroshock but following repeated electroshocks some staining was observed. In an attempt quantify this transcapillary loss of albumin by means of indicator dilution, 51Cr-labelled erythrocytes were used as intravascular reference substance against 113mIn-DTPA (a plasma tracer). However, the albumin loss (by pinocytosis or otherwise) occurring after ten electroshocks could not be detected during a single passage through the brain.
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PMID:Blood-brain barrier during electroshock seizures in the rat. 40 65

We have studied the entry of 3H-bilirubin and 125I-albumin into brain regions in young rats during short-term (1 h) hyperbilirubinemia. Bilirubin enters the brain both under control, displacer (sulfisoxazole 50 mg/kg), hypercarbic (PCO2 18-21 kPa; pH approximately 6.9), and hyperosmolar (serum osmolality approximately 400 mosm/l) conditions. No significant differences in bilirubin uptake were found between brain regions. Thus preferential staining of basal ganglia ('kernicterus') may not be a phenomenon related to uptake. Albumin does not cross the blood-brain barrier under control or displacer conditions, but does enter the brain to some extent in hypercarbia, and to a greater extent in hyperosmolality. During control and displacer conditions, only unbound bilirubin appears to enter the brain. In hypercarbia bilirubin enters primarily in the unbound form, but some is also albumin-bound. In hyperosmolality a significant fraction of the bilirubin entering the brain is albumin-bound.
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PMID:Effects of sulfisoxazole, hypercarbia, and hyperosmolality on entry of bilirubin and albumin into brain regions in young rats. 250 67

The decision to institute MV in patients with COPD and ARF is difficult because the risk of complications is high and the long-term prognosis is poor. We reviewed our experience with 95 COPD patients with ARF requiring MV. Fifty-five patients required MV for more than two weeks, 72 were weaned successfully, and 59 died within one year of follow-up. Survival was associated with premorbid level of activity (p less than .001), FEV1 (p less than .01), serum albumin level (p less than .05), and severity of dyspnea (p less than .01). Cor pulmonale on ECG, premorbid hypercarbia, and history of left ventricular failure were also more common among those who died. Weaning from MV was associated with premorbid level of activity (p less than .001), FEV1 (p less than .001), albumin level (p less than .05), and negative inspiratory pressure (p less than .001) and respiratory rate during T-piece trial (p less than .01). The duration of intubation was associated only with premorbid level of activity (p less than .01). Predictive models for the weaning success and the one-year survival were developed.
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PMID:Determinants of weaning and survival among patients with COPD who require mechanical ventilation for acute respiratory failure. 291 93

Hypoproteinemia by itself produces a metabolic alkalosis. It is not clear whether a respiratory compensation (hypercapnia) develops with this alkalosis; patients with liver cirrhosis, most of them with hypoproteinemia, are known to hyperventilate. We studied 23 clinically stable patients with hypoproteinemia, with very low albumin-to-globulin ratios (range 0.4 to 1.1), who had either liver cirrhosis (n = 12) or other medical conditions (n = 11). In both groups, there was marked hypocapnia, accompanied by alkalemia (PaCO2 values (mean +/- SD) 31 +/- 2 and 32 +/- 3 torr; pH (mean +/- SD) 7.45 +/- 0.03 and 7.47 +/- 0.03, for the patients with cirrhosis and those without, respectively). Hypoxemia was not the stimulus provoking hyperventilation. The lowering of PaCO2 was proportional to the reduction of serum albumin and total protein concentrations; no detectable difference was seen between the patients with cirrhosis and those without cirrhosis in this apparent dependence of PaCO2 on the concentration of serum proteins. Many of these clinically stable patients with hypoproteinemia, with or without liver cirrhosis, had appreciable concentrations of unidentified anions in plasma (inappropriately high anion gap). Whatever the nonrespiratory acid-base status of the patients with hypoproteinemia, their pulmonary ventilation (hypocapnia) appeared excessive when compared with subjects (presumably) without proteinemia who had similar nonrespiratory acid-base states. The mechanism responsible for the hyperventilation in hypoproteinemia and the nature of the unidentified anions in this condition are obscure.
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PMID:Hyperventilation with hypoproteinemia. 318 88

The aim of this study was to investigate (i) whether bilirubin encephalopathy with lasting sequelae could be created in a rat model, and (ii) putative differences in brain toxicity between bound and unbound bilirubin. Hyperbilirubinemia was produced by infusing bilirubin 20 mg/kg/h during 3 h into 6-week-old male Sprague-Dawley rats. In addition to the hyperbilirubinemia, different groups were created by exposing the rats to hyperosmolality, hypercarbia, and sulfisoxazole. Three weeks after the infusion the rats were studied in an open-field apparatus during 10 daily sessions of 15 min duration. A data collection program was used to study the following measures of activity: crossings in cage, peeks, rearing, latency to enter field, crossings in middle and in outer field, and time outside cage. The data were subjected to multivariate analyses of variance (MANOVA). Generally, the level of activity was higher in the bilirubin-treated rats as compared to the control animals. The difference in activity between bilirubin-treated and control rats changed systematically both between and within sessions. The data show that both unbound and albumin-bound bilirubin are neurotoxic, but they indicate a more pronounced effect of unbound bilirubin. The sequelae of bilirubin brain toxicity appear to include changes in stimulus processing. This is compatible with findings from neuropsychological tests of children who have had significant neonatal hyperbilirubinemia.
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PMID:Open-field behavior of rats previously subjected to short-term hyperbilirubinemia with or without blood-brain barrier manipulations. 369 Mar 1

The purpose of this study was to examine regional autoregulation of blood flow in the brain during acute hypertension. In anesthetized cats severe hypertension increased blood flow more in cerebrum (159%) and cerebellum (106%) than brain stem (58%). In contrast to the heterogeneous autoregulatory response, hypocapnia produced uniform vasoconstriction in the brain. We also compared vasodilatation during severe hypertension with vasodilatation during hypercapnia. During hypercapnia, blood flow increased as much in brain stem, as in cerebrum and cerebellum. Thus regional differences in autoregulation appear to be specific for autoregulatory stimulus and are not secondary to nonspecific differences in vasoconstrictor or vasodilator capacity. To determine whether the blood-brain barrier is more susceptible to hypertensive disruption in regions with less effective autoregulation, permeability of the barrier was quantitated with 125I-albumin. Severe hypertension produced disruption of the barrier in cerebrum but not in brain stem. Thus there are parallel differences in effectiveness of autoregulation and susceptibility to disruption of the blood-brain barrier in different regions of the brain.
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PMID:Heterogeneity of brain blood flow and permeability during acute hypertension. 392 26

Since kernicteric lesions are usually found in the subcortical regions of the brain and these areas also receive the highest blood flow during asphyxia and hypercapnia, we hypothesized that increases in brain bilirubin deposition may be related to increases in brain blood flow. Fourteen piglets underwent a 3-h infusion of bilirubin to maintain total serum bilirubin at approximately 8 mg/dl, during which time blood gases, hemodynamic variables, and brain blood flow were determined. After sacrificing the animals, regional brain bilirubin content was determined. Ten piglets underwent the same protocol; in addition, hypercapnia was induced during the last hour of study (PaCO2 approximately 70 mm Hg). The regional brain blood flow and bilirubin deposition were significantly increased over control values (p less than 0.05) following hypercapnia in the subcortical region and significantly so in the midbrain and cerebellum. In separate groups of control (n = 6) and hypercapnia (n = 6) piglets, 125I-labeled albumin was infused and demonstrated that hypercapnia was not associated with increased regional brain albumin content. We conclude that hypercapnia-induced augmentation in regional brain blood flow is associated with increased deposition brain blood flow is associated with increased deposition of unbound bilirubin. Although the causal relationship between these two observations has not been firmly established, the findings deserve future investigation to clarify the role of brain blood flow, brain bilirubin deposition, and the production of kernicterus in high risk infants.
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PMID:The effects of brain blood flow on brain bilirubin deposition in newborn piglets. 404 Jun 28

The purpose of this study was to assess the effects of combined hypoxia and hypercapnia and of severe asphyxia on lung water balance and protein transport in newborn lambs. We studied ten 2-4-wk-old anesthetized lambs which were mechanically ventilated first with air for 2-3 h, then with 10-12% oxygen in nitrogen for 2-4 h, and then with 10-12% oxygen and 10-12% carbon dioxide in nitrogen for 2-4 h. Next we stopped their breathing for 1-2 min to produce severe asphyxia, after which we followed their recovery in air for 2-4 h. In 5 of the 10 lambs we intravenously injected radioactive albumin and measured its turnover time between plasma and lymph during the baseline period and after recovery from asphyxia. During alveolar hypoxia alone, mean pulmonary arterial pressure increased 60% and lung lymph flow increased 74%, whereas lymph protein concentration decreased from 3.47 +/- 0.13 to 2.83 +/- 0.15 g/dl. Cardiac output, left atrial pressure, and plasma protein concentration did not change. When carbon dioxide was added to the inspired gas mixture, pulmonary arterial pressure increased 22%, cardiac output increased 13%, lung lymph flow increased 33%, and lymph protein concentration decreased from 2.83 +/- 0.15 to 2.41 +/- 0.13 g/dl. Left atrial pressure and plasma protein concentration did not change. After 60-90 s of induced asphyxia, vascular pressures and lung lymph flow rapidly returned to values the same as those obtained during the baseline period. The turnover time for radioactive albumin between plasma and lymph was the same between the baseline and recovery periods (185 +/- 16 vs. 179 +/- 12 min). The ratio of albumin to globulin in lymph relative to the same ratio in plasma did not change during any phase of these experiments. Five lambs killed after recovery from asphyxia had significantly less blood and extravascular water in their lungs than control lambs had. We conclude that in the newborn lamb both alveolar hypoxia and alveolar hypoxia with hypercapnia increase lung lymph flow by increasing filtration pressure in the microcirculation, but neither hypoxia with hypercapnia nor brief severe asphyxia alters the protein permeability of the pulmonary microcirculation.
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PMID:Effects of asphyxia on lung fluid balance in baby lambs. 643 Sep 59

Albumin concentration in cerebrospinal fluid (CSF) and plasma was determined in 44 cadavers divided into three groups on the basis of death agony duration. The same was determined in a control group of 42 patients with no demonstrable neurological disease. Following Schuller's method, the evaluation of the blood CSF barrier permeability was based upon the rate of albumin transfer from plasma to CSF. An average increase of 9% in blood CSF barrier permeability was found in cases of a long-duration death agony but not in cases of short-duration death agony (sudden deaths) or in the control group. We consider these results to be related to the hypoxia and hypercapnia which characterize the agonic suffering period. Therefore, we conclude that the postmortem determination of the rate of albumin transfer from plasma to CSF could be a reliable indicator of the duration of the agonic process.
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PMID:Forensic significance of postmortem estimation of the blood cerebrospinal fluid barrier permeability. 664 40

The effect of metabolic and respiratory acidosis on bilirubin and albumin entry into the brain was studied in 24 awake and unanesthetized rats. Hyperbilirubinemia was established by infusion of unconjugated bilirubin at a rate of 30 mg/kg/h for three hours. After two hours, metabolic acidosis was produced in eight rats by infusion of 0.5 N hydrochloric acid at a rate of 0.02 mL/g/h. This reduced the pH level to 7.03 +/- 0.01 (mean +/- SEM) with a normal value for PCO2. Respiratory acidosis was produced in another group of eight animals who breathed 20% CO2 in a balanced gas mixture for the last hour of the study period. This resulted in a reduction of pH to 7.04 +/- 0.01 with PCO2 of 100.4 +/- 2.3 mm Hg. A third group of eight rats served as controls and were given equal volumes of saline infusion. No increase in brain bilirubin or brain albumin was found in the group with metabolic acidosis, but in the group with respiratory acidosis both bilirubin and albumin concentrations in the brain increased significantly. No significant differences were found between the groups in serum total or apparent unbound bilirubin, albumin, or osmolality. The results indicate that a brief period of acidosis per se does not increase bilirubin entry into the brain, but hypercarbia does so by opening of the blood-brain barrier.
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PMID:Effect of acidosis on bilirubin deposition in rat brain. 670 23


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