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

Rats were exposed 24 hours a day to carbon dioxide, 8 +/- 1%, during 2 and 4 weeks under normoxic conditions (21% oxygen). On the last day, blood was taken from the abdominal aorta under anesthesia. Leukocyte and erythrocyte counts, hemoglobin concentration, and mean cell volume were electronically measured. Hematocit and Wintrobe indexes were calculated. Leukocyte differential counts and peroxidase activity were determined on blood smears. After 4 weeks of hypercapnia, a slight decrease of neutrophilic granulocytes was observed. In mature polymorphs, peroxidase activity (cytochemically demonstrated) simultaneously decreased. Erythrocyte counts and mean cell volume remained unchanged. The most important hematological disturbance was an hemoglobin concentration drop. Consequently, it was concluded that an hypochromic anemia characterized the permanent normoxic hypercapnia in rats.
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PMID:Blood effects of permanent normoxic hypercapnia in conventional rats. 28 61

The aim of this paper has been to review and discuss the past and the recent investigations concerned with the study of cerebral transport phenomena in pathological conditions which have been divided into two main parts: (1) the effects of experimentally induced blood brain barrier (BBB) injury by (a) HgCl2 or (b) hyper-osmolar intracarotic perfusate; and (2) the effects of ischemia or of an altered oxygen saturation and pCO2 tension on glucose and/or amino acids and/or protein transport across the BBB, in the syanptosomes and cerebral capillaries. The most important observations were as follows: (1) HgCl2 or hyperosmolar perfusates produced an increased BBB permeability to protein tracers but the brain uptake of glucose analogues was found decreased following the former, and increased (except for lactamide) after the latter treatment. (2) (a) In ischemia, the noted increased vesicular transport of peroxidase, as well as the increased saturable and non-saturable passage of glucose analogues across the BBB depended on the duration of cerebral deprivation of blood supply which never resulted in degeneration of endothelial cells of the brain vessels. (b) The progressively decreased specific 2-deoxy-D-glucose uptake in the synaptosomes seen during cerebral ischemia of 30-180 minutes returned to the level of controls 1 hour after reestablishment of cerebral circulation. (c) A decrease in brain uptake of glucose analogues and amino acids (with few exceptions) was observed in severe hypoxia and hypercapnia while an increase or no change in the brain uptakes was seen in hypocapnia. (d) Preliminary investigations of the 2-DG uptake by the cerebral capillaries obtained by fractionation of the brain from animals subjected to normal or altered oxygen saturation and pCO2 tension suggested that cerebral glucose uptake may be directly related to its capillary function.
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PMID:Pathological aspects of brain transport phenomena. 78 95

The vasodilation elicited in cerebral cortex by stimulation of the cerebellar fastigial nucleus (FN) is mediated by input pathways coming from the basal forebrain. We studied whether these pathways mediate the cortical vasodilation via a direct action on local blood vessels or via interposed local neurons. Neurons were destroyed in the primary sensory cortex by local microinjection of the excitotoxin ibotenic acid (IBO) (10 micrograms/l microliter). Five days later rats were anesthetized (alpha-chloralose), paralyzed, and ventilated. Arterial pressure and blood gases were controlled, and FN was stimulated electrically. Local cerebral blood flow (LCBF) was measured using the [14C]iodoantipyrine technique with autoradiography. Five days after IBO, neurons were destroyed in a restricted cortical area, and afferent fibers and terminals were preserved. The selectivity of the neuronal loss was established by histological and biochemical criteria and by transport of horseradish peroxidase from or into the lesion. Within the lesion, resting LCBF (n = 7) was unaffected, but the increase in LCBF evoked from the FN was abolished (P greater than 0.05); n = 6). In contrast the vasodilation elicited by hypercapnia (arterial CO2 partial pressure = 62.7 +/- 3; n = 5) was preserved. In the rest of the brain the vasodilation elicited from FN was largely unaffected. We conclude that the vasodilation evoked from FN in cerebral cortex depends on the integrity of a restricted population of local neurons that interact with the local microvasculature.
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PMID:Role of local neurons in cerebrocortical vasodilation elicited from cerebellum. 359 80

Exposure to hypercapnia and electrical stimulation of the carotid sinus nerve (CSN) has been shown to induce c-fos expression in several brain stem regions including the nucleus tractus solitarius (NTS). To test whether the labeled neurons were activated directly by hypercapnia or secondarily via the carotid bodies (sinus nerve), adult rats were exposed to either air or 14-16% CO2 for 1 h. Experiments were done on eight groups: (1) exposure to air, (2) exposure to CO2, (3) chronic CSN denervation/CO2, (4) chronic unilateral CSN denervation/CO2, (5) chronic sham CSN denervation/CO2, (6) anesthetized/CO2, (7) anesthetized and acute vagotomy/CO2, and (8) premedicated with morphine, 10 mg s.c., 20 min before exposure to CO2. After exposure to CO2 or air the rats were anesthetized, perfused with 4% paraformaldehyde and the brains processed for immunohistochemical staining for c-fos protein using the PAP (i.e. peroxidase anti-peroxidase) technique. Labeled neurons in the area of the NTS in every second 50- "mu"m section were counted and their position plotted using a microscope and camera lucida attachment. Rats exposed to CO2 had a significantly greater number of labeled neurons in the NTS than those exposed to air. Other interventions, such as CSN denervation, surgery, anesthesia, vagotomy or injection of morphine did not significantly affect the level of c-fos expression in rats exposed to hypercapnia, indicative of central stimulation rather than secondary peripheral input. These responsive neurons may be part of a widespread central chemoreceptive complex.
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PMID:Effect of sinus denervation and vagotomy on c-fos expression in the nucleus tractus solitarius after exposure to CO2. 892 4

Hypercarbia is a common complication of respiratory failure, and the technique of "permissive hypercapnia" is used to ventilate individuals with increased peak airway pressures on mechanical ventilators, resulting in elevated arterial PCO2. We studied the effects of hypercarbia on cultured bovine aortic and main pulmonary artery endothelial cell surface proteins, assessing cell surface iodination using lactoperoxidase bound to latex microspheres. We found that 4 h of exposure to 10% CO2 increased the display of substances of apparent molecular masses of 27, 47, and 52 kDa. This effect was not mimicked by acidotic media. Western blots of detergent extracts of main pulmonary artery endothelial cell monolayers did not show increased expression of carbonic anhydrase IV (molecular mass = 52 kDa) after incubation under hypercarbic conditions. Hypercarbia did not change the pattern of [35S]methionine incorporation into endothelial cell proteins. We conclude that hypercarbia of 4-h duration changes iodinated endothelial cell surface proteins. We speculate that this effect may be related to changes in secretion or display of apical cell membrane-associated proteins.
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PMID:Effect of hypercarbia on surface proteins of cultured bovine endothelial cells. 943 68

Electrical stimulation of the rostral fastigial nucleus (FNr) alters respiration via activation of local neurons. We hypothesized that this FNr-mediated respiratory response was dependent on the integrity of the nucleus gigantocellularis of the medulla (NGC). Electrical stimulation of the FNr in 15 anesthetized and tracheotomized spontaneously breathing rats significantly altered ventilation by 35.2 +/- 11.0% (P < 0.01) with the major effect being excitatory (78%). This respiratory response did not significantly differ from control after lesions of the NGC via bilateral microinjection of kainic or ibotenic acid (4.5 +/- 1.9%; P > 0.05) but persisted in sham controls. Eight other rats, in which horseradish peroxidase (HRP) solution was previously microinjected into the left NGC, served as nonstimulation controls or were exposed to either 15-min repeated electrical stimulation of the right FNr or hypercapnia for 90 min. Histochemical and immunocytochemical data showed that the right FNr contained clustered HRP-labeled neurons, most of which were double labeled with c-Fos immunoreactivity in both electrically and CO(2)-stimulated rats. We conclude that the NGC receives monosynaptic FNr inputs and is required for fully expressing FNr-mediated respiratory responses.
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PMID:Fastigial nucleus-mediated respiratory responses depend on the medullary gigantocellular nucleus. 1156 55

Appreciating that CO2 modifies the chemical reactivity of nitric oxide (NO)-derived inflammatory oxidants, we investigated whether hypercapnia would modulate pulmonary inflammatory responses. Rabbits (n = 72) were ventilated with approximately 7-ml/kg tidal volume for 6 hours. Animals were randomized to one of the following conditions: eucapnia (Pa(CO2) at approximately 35-40 mm Hg), eucapnia + lipopolysaccharide (LPS), eucapnia + LPS + inhaled NO (iNO delivered at approximately 20 ppm), hypercapnia (Pa(CO2) at approximately 60 mm Hg), hypercapnia + LPS, and hypercapnia + LPS + iNO. The hypercapnia + LPS groups compared with groups exposed to eucapnia + LPS displayed significantly increased bronchoalveolar lavage fluid protein concentrations (p < 0.05), lung wet-to-dry ratios (p < 0.05), bronchoalveolar lavage fluid cell counts (p < 0.05), and lung histologic alterations consistent with greater injury. Furthermore, expression of inducible nitric oxide synthase (p < 0.05), tissue myeloperoxidase content (p < 0.05), and formation of lung protein 3-nitrotyrosine derivatives (p < 0.05) was greatest under conditions of hypercapnia + LPS. Groups exposed to hypercapnic conditions without LPS did not manifest these changes. The inhalation of iNO attenuated selected indices of lung injury. We conclude that hypercapnia induced by means of reduced rate and tidal volume amplifies pulmonary inflammatory responses.
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PMID:Hypercapnia via reduced rate and tidal volume contributes to lipopolysaccharide-induced lung injury. 1564 Mar 70

Acid aspiration or intrapulmonary instillation of gastric particles causes lung inflammation leading to acute lung injury (ALI). Hypercapnia exerts different effects on ALI caused by various insults. The effects of hypercapnia on lung inflammation and injury due to acid aspiration are yet to be determined. The present study was designed to investigate the involvement of inducible nitric oxide synthase (iNOS) and other mediators in acid-aspiration-induced ALI. We also sought to evaluate the effects of hypercapnia on the lung and associated changes induced by acid aspiration. We used Spague-Dawley rats anesthetized with intraperitioneal pentobarbital (40 mg/kg). Gastric acid particles were prepared from the stomach contents of rats at necropsy. The rats were randomly assigned to receive intratracheal instillation of physiological saline solution (PSS) at pH 7.24 (Control group), PSS at pH 1.25 (Low pH, LPH group), gastric particles (GP group), and GP with low pH PSS (GPLPH group). There were 10 rats in each group. The animals were observed for 6 hrs. To evaluate the effects of hypercapnia, we carried out two series of experiments: one under normocapnia and the other under hypercapnia with alteration of CO2 fraction in inspired air. Arterial pressure (AP) was monitored from the femoral arterial catheter. Heart rate was obtained from AP traicing. We determined the blood gases and acid-base status. Lung weight to body weight (LW/BW) ratio, LW gain (LWG), protein concentration in bronchoalveolar lavage (PCBAL) and leakage of Evans blue dye tracer were measured. Plasma nitrate/nitrite, methyl guanidine (MG), myeloperoxidase (MPO), phospholipase A2 (PLA2), proinflammatory cytokines were assessed. Histopathological examination of the lung tissue was performed. We employed reverse-transcriptase polymerase chain reaction to detect the expression of iNOS mRNA. GP and GPLPH caused hypotension, decreases in PaO2, pH and SaO2, and an increase in PaCO2. The insults also elevated LW/BW, LWG, PCBAL and dye leakage, plasma nitrate/nitrite, MG, MPO, PLA2, tumor necrosis factor(alpha), interleukin-beta and interleukin-6. The lung pathology was characterized by alveolar edema and hemorrhage with inflammatory cells infiltration. Assessment of lung injury score revealed that GP and GPLPH caused ALI. Furthermore, hypercapnia significantly enhanced ALI and associated changes following LPH, GP and GPLPH. Intratracheal instillation of GP in normal or low pH PSS causes ALI accompanied with biochemical changes. The release of nitric oxide via iNOS isoform is detrimental to the lung. Hypercapnia tended to enhance ALI and associated changes induced by gastric acid instillation.
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PMID:Enhancement effects of hypercapnia on the acute lung injury caused by acid aspiration. 1977 97