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

The present studies were performed in order to determine whether "filtration edema" will develop as a consequence of cerebral vasoparalysis, vasoparalysis in combination with arterial hypertension or arterial hypertension alone. A series of dogs, anaesthetised with i.v. Chloralose-Urethane were exposed 1) to cerebral vasoparalysis, produced by hypercapnia (PaCO2 about 150 mm Hg) and hypoxaemia (PaO2 40-60 mm Hg); 2) to arterial hypertension and 3) to a combination of cerebral vasoparalysis and arterial hypertension. Following cerebral vasoparalysis and arterial hypertension, a significant decrease of total cerebrovascular resistance and moderate increase of venous resistance was observed. Regional cerebral blood flow (133Xe), intracranial pressure, as well as the pressure in postcapillary venous outflow (sinus sagittalis wedge pressure and confluence sinuum pressure) were increased. Neither normotonic vasoparalysis nor vasoparalysis in combination with slight arterial hypertension (MABP more than 90 min above 180 mm Hg) resulted in cerebral edema. In contrast, cerebral vasoparalysis in combination with severe arterial hypertension (MABP more than 90 min above 220 mm Hg) resulted in a statistically significant increase in the water content in the white matter without evidence of protein extravasation. Multiple small foci of Evans blue extravasates, however, were found in the cortex following arterial hypertension in combination with vasodilation, indicating a damage of the blood brain barrier. In these blue stained cortical areas the water content was significantly in creased. The following conclusions were drawn from the results. Vasoparalysis during normotension does not produce brain edema despite the slightly elevated hydrostatic pressure gradient between intravasal and extracellular space. Only considerable increase of this hydrostatic pressure gradient caused by a combination of vasoparalysis with severe arterial hypertension is able to produce brain edema in the white matter. In addition, acute hypertension may cause minor multifocal damage of the blood brain barrier in the cerebral cortex. It is concluded that so-called brain swelling, which has been described by several authors in states of cerebral vasoparalysis, is not predominantly caused by brain edema but by vascular congestion. The clinical aspects of the result are discussed.
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PMID:[Cerebral vasoparalysis, arterial hypertension and brain edema (author's transl)]. 5 29

Auditory, visual and somatosensory evoked potentials (EPs), recorded epidurally from 31 chronically implanted male Long-Evans rats, were studied to examine the pattern of sensory effects caused by hypercapnia. Recordings were obtained before exposures, 10-20 min after the beginning of exposure to CO2 in synthetic air, and 30 min after the end of exposure. Previous recordings revealed no substantial effects of the extended recording period itself. Blood pH during an average exposure of 18.8% CO2 was about 7.1. During this level of CO2 exposure the somatosensory response was almost completely abolished, but the latencies of early detectable components were not affected. In contrast, the latencies of all brainstem auditory evoked response components and the 1-5 interwave time increased, whereas amplitudes were only slightly affected. Amplitudes and latencies of early and late components of the flash EP were decreased and lengthened, but the after-discharge components appeared to be most sensitive to CO2. Concentration-response relationships were examined by exposure of rats to 8 and 16% CO2. The most sensitive EP parameter was average amplitude of the late somatosensory EP components. These results suggest that EPs might be useful for assessing acute metabolic disturbances as well as more commonly assessed neurologic disorders.
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PMID:Effect of acute respiratory acidosis on multimodality sensory evoked potentials of Long-Evans rats. 258 91

The control of aldosterone secretion may be altered during acute changes in arterial blood gases. We studied the blood gas, plasma electrolyte, renin (PRA), adrenocorticotropic hormone (ACTH), and aldosterone (ALDO) responses to acute hypercapnia (4 and 8% CO2), acute hypocapnic hypoxia (10% O2), acute severe normocapnic hypoxia (7% O2-4% CO2), and acute hypercapnic hypoxia (7% O2-8% CO2) in conscious, cannulated Long-Evans rats. Normoxia resulted in normal levels of PRA (6.9 +/- 2.0 ng.ml-1.h-1), ACTH (96 +/- 32 pg/ml), and ALDO (10 +/- 3 ng/dl). Hypercapnia had no effect on PRA but did lead to an increase in ACTH (to 298 +/- 69 pg/ml) and ALDO (to 33 +/- 7 ng/dl) during 8% CO2 exposure. Normocapnic hypoxia resulted in a significant increase in ACTH (to 196 +/- 14 pg/ml) and ALDO (to 30 +/- 3 ng/dl). Hypercapnic hypoxia resulted in the greatest increases in PRA (to 30 +/- 2 ng.ml-1.h-1), ACTH (to 397 +/- 114 pg/ml), and ALDO (to 41 +/- 5 ng/dl). We conclude that in conscious rats 1) hypercapnia (less than 80 Torr) had no significant effect on PRA, 2) isocapnic, severe hypoxia (Po2 approximately 34 Torr) increased ACTH, and 3) the combination of hypercapnia and hypoxia was a very potent stimulus to PRA, ACTH, and ALDO. The ALDO responses to increases in endogenous ACTH and angiotensin II appear to be normal in conscious rats during acute hypoxia and/or hypercapnia.
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PMID:Renin, ACTH, and aldosterone during acute hypercapnia and hypoxia in conscious rats. 283 42

The permeability of the blood-retinal barrier to infusion of fluorescent tracers was examined in tissue sections of frozen eyes from conscious rats that had breathed either air (control) or 25% carbon dioxide in air for one hour. For all animals the blood-retinal barrier remained impermeable to either carboxyfluorescein or Evans blue, indicating a functionally intact tight junctional barrier during hypercapnia. However, in hypercapnic animals, fluorescein penetrated into the neural retina, mainly via the pigment epithelium. Fluorescein also passed through the pigment epithelium in rats with metabolic acidosis induced by intravenous infusion of ammonium chloride, which lowered arterial blood pH without raising the Paco2 or BP. The results indicate an increased permeability of fluorescein through the cell membranes of the pigment epithelium during respiratory and metabolic acidosis. The effect on fluorescein may be due to a pH-dependent increase in the plasma concentration of the associated, more lipid-soluble form of this weak acid.
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PMID:Acidosis alters fluorescein permeability. Differential tracer penetration through pigment epithelium. 641 37

The effect of unilateral, electrical stimulation of the cervical sympathetic chain in rabbits anesthetized with pentobarbital sodium and vasodilated by hypercapnia, acetazolamide, papaverine or PGI2 was investigated to determine to what extent the sympathetic nerves to the brain and the eye cause vasoconstriction and prevent overperfusion in previously vasodilated animals. Evans blue was given as a tracer for protein leakage. Blood flow determinations were made with the labelled microsphere method during normotension and acute arterial hypertension. Hypertension was induced by ligation of the thoracic aorta and in some animals metaraminol or angiotensin was also used. Acetazolamide caused a two to threefold increase in cerebral blood flow (CBF) and hypercapnia resulted in a fivefold increase. CBF was not markedly affected by papaverine or PGI2. In the choroid plexus, the ciliary body and choroid, papaverine and hypercapnia caused significant blood flow increases on the control side. Sympathetic stimulation induced a 12% blood flow reduction in the brain in normotensive, hypercapnic animals. Marked effects of sympathetic stimulation at normotension were obtained under all conditions in the eye. In the hypertensive state the CBF reduction during sympathetic stimulation was moderate, but highly significant in hypercapnic or papaverine-treated animals as well as in controls. Leakage of Evans blue was more frequently seen on the nonstimulated side of the brain. In the eye there was leakage only on the control side except in PGI2-treated animals where 2 rabbits had bilateral leakage. The effect of sympathetic stimulation on the blood flow in the cerebrum and cerebellum in vasodilated animals seems to be small or absent if the blood pressure is normal. In the eye pronounced vasoconstriction occurs under these conditions. In acute arterial hypertension sympathetic stimulation protects both the cerebral and ocular barriers even under conditions of marked vasodilation.
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PMID:Effects of sympathetic stimulation on cerebral and ocular blood flow. Modification by hypertension, hypercapnia, acetazolamide, PGI2 and papaverine. 675 90

Spontaneous hypertensive rats (SHR) are less prone to develop a dysfunction of the blood-brain barrier (BBB) when exposed to an abrupt increase in blood pressure than normotensive rats (NR), probably as a result of vessel wall hypertrophy and increased vessel wall to lumen ratio. Hemodynamic studies have indicated that structural adaptation develops early as a response to the increased pressure load in renal hypertensive rats (RHR). In the present study RHR (one renal artery constricted and the contralateral kidney intact) were subjected to acute hypertension induced by bicuculline, a drug that induces an abrupt increase in blood pressure concomitant with pronounced cerebral vasodilatation. Protein leakage in the brain, as indicated by Evans blue-albumin and 125IHSA (human serum albumin) extravasation, was not reduced in RHR compared to NR. The cerebrovascular permeability was slightly but significantly (p < 0.01) increased in RHR even in the absence of further blood pressure manipulation. No neurological symptoms were observed in conscious RHR when the BBB dysfunction was aggravated by hypercapnia. The increased cerebrovascular permeability in RHR cold be due to a lower degree of structural adaptation in RHR compared to SHR and/or to some permeability-increasing humoral factor in renal hypertension.
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PMID:The blood brain barrier in renal hypertensive rats. 744 83

Retinopathy of prematurity (ROP) usually occurs after a prolonged exposure to normobaric hyperoxia in newborn mammals and infants. We hypothesized that experimental ROP also could develop after acute exposures to hyperbaric oxygenation (HBO), providing that a severe and maintained retinal vasoconstriction occurred during HBO exposure. Five- to seven-day-old, Long Evans Sprague-Dawley rats were exposed for 5 h either to 5 atm abs oxygen or to 5 atm abs O2 with 190 mmHg inspired PCO2 (hypercapnia). Control rats breathed air at atmospheric pressure. Two months after exposures, rats were anesthetized, perfused intraventricularly with India ink, and retinal images were obtained. Retinal vascular density (RVD) in each image was calculated as the number of pixels in the retinal vessel area divided by the total number of pixels in the image (retinal tissue and vessels). The RVD was significantly increased from 0.0112 +/- 0.004 in the air-exposed controls to 0.0417 +/- 0.029 in the HBO-exposed rats (mean +/- SD; n = 4 in each group). HBO with hypercapnia produced a nonsignificant increase in RVD (0.0255 +/- 0.007; n = 4), reducing the HBO-induced increase in RVD by 39%. These results are consistent with the hypothesis that a sustained HBO-induced retinal vasoconstriction in newborn rats, followed by a hypoxic-ischemic injury, might result in vascular proliferation, thereby initiating ROP development on return to air. Hypercapnia does not completely prevent HBO-induced retinal vasoproliferation, probably because possible vasodilation, induced by hypercapnia, can greatly elevate retinal tissue PO2 and promote oxidative damage.
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PMID:Experimental retinopathy by hyperbaric oxygenation. 774 8

The present study aimed to investigate the distribution pattern of plasma flow velocities in brain capillaries. We tested the hypothesis that plasma flow velocities are heterogeneous in the brain capillaries of normocapnic conscious rats and become more homogeneous during increased cerebral blood flow induced by hypercapnia. We developed a method that makes it possible to detect the distribution pattern of plasma flow velocities from the intravascular dye concentrations measured in different capillaries. Evans blue was injected intravenously as a bolus, and 3 to 4 seconds later the rats were decapitated. During this period, a steep increase in arterial dye concentration was verified by frequent arterial blood sampling. Under such conditions, divergent plasma flow velocities in different capillaries yield unequal intravascular dye concentrations. Dye concentrations were measured in several hundred capillaries of brain cryosections using quantitative fluorescence microscopy based on calibration curves obtained from anesthetized rats. The results show a high degree of variation in the intravascular dye concentration during normocapnia. During increasing stages of hypercapnia, the variation was gradually reduced. The coefficient of variation (SD/mean-100) of intracapillary dye concentration decreased from 76% at normocapnia to 22% at extreme hypercapnia (PCO2 of 87 mm Hg), thus showing an inverse correlation with arterial PCO2 (r = .97). The heterogeneity of intravascular dye concentrations observed in the present experiments indicates heterogeneous velocities of plasma perfusion in different brain capillaries during normocapnia and a more homogeneous distribution pattern during hypercapnic hyperemia.
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PMID:Patterns of capillary plasma perfusion in brains in conscious rats during normocapnia and hypercapnia. 800 Dec 69

Previous studies from our group have indicated a heterogeneity of plasma transit times in brain capillaries. The heterogeneity was decreased with increasing cerebral blood flow during hypercapnia. In the present study, the hypothesis was tested that these apparent changes in microvascular plasma perfusion heterogeneity depend on the existence of red blood cells (RBC). To this end, the blood of anesthetized and paralyzed rats was replaced by a shear rate-independent oxygen-carrying substitute, ultrapurified polymerized bovine hemoglobin (UPBHB). Cerebral blood flow ([14C]iodoantipyrine technique) or microvascular perfusion pattern (intravenous bolus injection of Evans blue and decapitation 3-4 s later) was measured. After exchange transfusion with UPBHB, cerebral blood flow still varied with arterial PCO2, whereas in contrast to the unexchanged condition, the heterogeneity of the intracapillary Evans blue concentration remained unchanged. Compared with the unexchanged normocapnic condition, the heterogeneity of intracapillary dye concentration was decreased by one-quarter. It is concluded that RBC contribute to the microvascular perfusion heterogeneity in the brain.
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PMID:Flow-independent heterogeneity of brain capillary plasma perfusion after blood exchange with a Newtonian fluid. 913 70

It is reported that preexercise hyperhydration caused arterial O(2) tension of horses performing submaximal exercise to decrease further by 15 Torr (Sosa-Leon L, Hodgson DR, Evans DL, Ray SP, Carlson GP, and Rose RJ. Equine Vet J Suppl 34: 425-429, 2002). Because hydration status is important to optimal athletic performance and thermoregulation during exercise, the present study examined whether preexercise induction of hypervolemia would similarly accentuate the arterial hypoxemia in Thoroughbreds performing short-term high-intensity exercise. Two sets of experiments (namely, control and hypervolemia studies) were carried out on seven healthy, exercise-trained Thoroughbred horses in random order, 7 days apart. In resting horses, an 18.0 +/- 1.8% increase in plasma volume was induced with NaCl (0.30-0.45 g/kg dissolved in 1,500 ml H(2)O) administered via a nasogastric tube, 285-290 min preexercise. Blood-gas and pH measurements as well as concentrations of plasma protein, hemoglobin, and blood lactate were determined at rest and during incremental exercise leading to maximal exertion (14 m/s on a 3.5% uphill grade) that induced pulmonary hemorrhage in all horses in both treatments. In both treatments, significant arterial hypoxemia, desaturation of hemoglobin, hypercapnia, acidosis, and hyperthermia developed during maximal exercise, but statistically significant differences between treatments were not found. Thus preexercise 18% expansion of plasma volume failed to significantly affect the development and/or severity of arterial hypoxemia in Thoroughbreds performing maximal exercise. Although blood lactate concentration and arterial pH were unaffected, hemodilution caused in this manner resulted in a significant (P < 0.01) attenuation of the exercise-induced expansion of the arterial-to-mixed venous blood O(2) content gradient.
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PMID:Preexercise hypervolemia does not affect arterial hypoxemia in Thoroughbreds performing short-term high-intensity exercise. 1256 77


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