UMLS:C0001127 - FACTA Search

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Query: UMLS:C0001127 (respiratory acidosis)
1,501 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

These studies were performed to determine whether in vitro elevation of bath PCO2 with associated reduction in pH (acute respiratory acidosis) affected bicarbonate transport by isolated perfused rabbit cortical collecting tubules (CCT) and collecting tubules from the outer (OMCTos) and inner (OMCTis) stripes of the outer medulla. When the PCO2 was elevated and pH reduced from approximately 7.4 to 7.0 the rate of total CO2 absorption increased to 252% of that observed at pH 7.4 in CCT, 146% in OMCTos, and 150% in OMCTis. In OMCTis, pretreatment with colchicine inhibited the stimulation of total CO2 absorption associated with respiratory acidosis, whereas lumicolchicine did not. Similar inhibition was observed in the presence of maptam and a low calcium concentration and in the presence of a calmodulin inhibitor. No differences were observed in apical or basolateral membrane morphometry of principal or intercalated cells between control tubules and those subjected to respiratory acidosis. The results indicate that acute respiratory acidosis stimulates acidification by the rabbit distal nephron in vitro through a process(es) that, at least in OMCTis, evidently involves the cell cytoskeleton and changes in cell calcium and calmodulin activities.
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PMID:Effects of respiratory acidosis on HCO3- transport by rabbit collecting tubules. 284 8

The effects on cardiac resuscitability of iso-osmolal solutions of tris-hydroxymethyl-aminomethane (tromethamine), sodium bicarbonate (NaHCO3) and sodium chloride placebo were compared in 30 domestic pigs using a well-established model of electrically induced cardiac arrest and resuscitation. We hypothesized that a carbon dioxide (CO2) consuming buffer like tromethamine would reduce and sodium bicarbonate would increase the respiratory acidosis of mixed venous blood, which had recently been demonstrated in our laboratory, Tromethamine did decrease and sodium bicarbonate did increase both arterial and mixed venous CO2 during cardiopulmonary resuscitation (CPR). Both concentrations of end-tidal CO2 and coronary venous PCO2 were significantly lower after tromethamine than after bicarbonate. However, tromethamine produced an unexpected vasodilator effect with reduction of mean aortic and coronary perfusion pressures to levels that are known to reduce resuscitability and survival independently of its buffer action. Neither resuscitability nor survival was altered by bicarbonate therapy in comparison with sodium chloride placebo.
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PMID:Effects of tromethamine and sodium bicarbonate buffers during cardiac resuscitation. 285 Oct 15

In contrast to chronic metabolic acidosis, chronic respiratory acidosis does not result in an adaptation in either renal ammonia or glucose production. To examine the possibility that this might be explained by a difference in proximal tubule intracellular pH, the response of two pH-sensitive metabolites, citrate and alpha-ketoglutarate, were assessed. Metabolic acidosis of 3 days duration, induced by drinking 1.5% NH4Cl, significantly reduced urinary citrate excretion (172 to 15 mumol/day) and renal cortical citrate (1.33 to 0.88 mumol/g) and alpha-ketoglutarate (0.90 to 0.46 mumol/g) concentrations in comparison with normal rats. Chronic respiratory acidosis, produced by 3 days in a 10% CO2 environment, lowered systemic pH similar to metabolic acidosis but had no effect on either urinary citrate excretion or renal cortical citrate and alpha-ketoglutarate concentrations. By contrast, acute respiratory acidosis (3, 6, or 24 h duration) reduced urinary citrate excretion and renal cortical citrate and alpha-ketoglutarate concentrations in a fashion similar to acute metabolic acidosis. These data suggest that acute acidosis of either respiratory or metabolic origin lowers the intracellular pH of the proximal tubule. However, when the acid-base abnormality enters the chronic phase, proximal tubular intracellular pH remains low with metabolic acidosis but returns to normal values with respiratory acidosis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of respiratory acidosis on intracellular pH of the proximal tubule. 287 19

Distal urinary acidification is thought to be mediated by an H+-ATPase sensitive to N-ethylmaleimide and dicyclohexyl-carbodiimide. We have studied the effect of chronic metabolic acidosis (NH4Cl for 3 days) or respiratory acidosis (inhalation of 10% CO2 for 2 days) on the H+-ATPase of plasma membranes prepared from the medulla. The enzymatic assay for the H+-ATPase was performed in the presence of ouabain and oligomycin and in the absence of Ca. H+-transport activity was assessed by the quenching of acridine orange in the presence of ATP. The 15-25% sucrose gradient fraction was enriched 40-fold in enzymatic activity over the homogenate, and 8-fold in enzymatic activity and 4-fold in H+-transport activity over the fluffy fraction (38,000 X g). Metabolic acidosis (pH less than 7.31) or chronic hypercapnia (PCO2 greater than 66 mmHg; 1 mmHg = 133.3 Pa) was induced for 2-3 days. Both groups showed the same enrichment factor in enzymatic and H+-transport assays as the control rabbits. Enzymatic and H+-transport activities, however, were not different between animals with respiratory acidosis and controls. Kinetic studies failed to disclose an increase in Vmax (673 vs. 702 mumol/(mg protein.min] or a decrease in Km (0.43 vs. 0.48 mM) in chronic hypercapnia as compared with controls. Metabolic acidosis also failed to increase H+-ATPase activity. These data demonstrate that the H+-ATPase of renal medulla does not display the expected increase in activity during acidosis. The role of this H+-ATPase in the adaptation to acidosis remains to be determined.
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PMID:Effect of metabolic or respiratory acidosis on rabbit renal medullary proton-ATPase. 289 4

The effects of respiratory acidosis on glycolysis in the autoperfused canine gastrocnemius-plantaris were studied using anesthetized dogs that were ventilated either with air (n = 30) or with 4% CO2-21% O2-75% N2 (n = 30). The left muscle group was stimulated at 3 Hz for up to 20 min, after which the active and the contralateral resting muscles were removed and frozen in liquid N2. Blood flow, VO2, Vco2, and tension development were unaffected by CO2. Glycogen catabolism was not affected, but lactate release (La) was lower (P less than 0.05) during activity with CO2; and greater fructose 6-phosphate, fructose 6-phosphate/fructose 1,6-diphosphate, and alpha-glycerophosphate/dihydroxyacetone phosphate ratios resulted (P less than 0.05). With respiratory acidosis, muscle lactate tended to accumulate early in contractions, but a net lactate uptake occurred during the last 10 min of contractions. Thus, respiratory acidosis reduced lactate efflux and there was a net uptake late in the contraction period. Glycogen phosphorylase did not appear to be affected by the respiratory acidosis, but there was evidence of inhibition at the phosphofructokinase step as well as a tendency for lactate to accumulate within the muscle. La often occurred in a direction contrary to the muscle-venous lactate concentration difference with either air or CO2 and La also decreased far more rapidly over time than did the arterial-venous H+.
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PMID:Skeletal muscle lactate release and glycolytic intermediates during hypercapnia. 293 11

To study both temporal and quantitative effects of hypercapnia on the extent of pH compensation in the arterial blood, specimens of carp (Cyprinus carpio) were exposed to a PCO2 of about 7.5 mmHg (1 mmHg = 133.3 Pa) (1% CO2) in the environmental water for several weeks, and a second group of animals was subjected to an environmental PCO2 of about 37 mmHg (5% CO2) for up to 96 h. A third series of experiments was designed to test the possibility that infusion of bicarbonate would increase the extent of plasma pH compensation. Dorsal aortic plasma pH, PCO2 and [HCO3-], as well as net transfer of HCO3- -equivalent ions, NH4+, Cl- and Na+, between fish and ambient water, were monitored throughout the experiments. Exposure to environmental PCO2 of 7.5 mmHg resulted in the expected respiratory acidosis with the associated drop in plasma pH, and subsequent compensatory plasma [HCO3-] increase. The compensatory increase of plasma bicarbonate during long-term hypercapnia continued during 19 days of exposure with plasma bicarbonate finally elevated from 13.0 mmoll-1 during control conditions to 25.9 mmoll-1 in hypercapnia, an increase equivalent to 80% plasma pH compensation. Exposure to 5% hypercapnia elicited much larger acid-base effects, which were compensated to a much lesser extent. Plasma pH recovered to only about 45% of the pH depression expected at constant bicarbonate concentration. At the end of the 96-h exposure period, plasma [HCO3-] was elevated by a factor of 2.5 to about 28.2 mmoll-1. The observed increase in plasma bicarbonate concentration during 5% hypercapnic exposure was attributable to net gain of bicarbonate equivalent ions from (or release of H+-equivalent ions to) the environmental water. Quantitatively, the gain of 15.6 mmol kg-1 was considerably larger than the amount required for compensation of the extracellular space, suggesting that acid-base relevant ions were transferred for compensation of the intracellular body compartments. The uptake of bicarbonate-equivalent ions from the water was accompanied by a net release of Cl-and, to a smaller extent, by a net uptake of Na+, suggesting a 75% contribution of the Cl-/HCO-3 exchange mechanism. Infusion of bicarbonate after 48 h of exposure to 7.5 mmHg PCo2 had only a transient effect on further pH compensation. The infused bicarbonate was lost to the ambient water, and pre-infusion levels of bicarbonate were reattained within 24 h. Repetition of the infusion did not result in a notable improvement of the acid-base status.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Acid-base regulation and ion transfers in the carp (Cyprinus carpio): pH compensation during graded long- and short-term environmental hypercapnia, and the effect of bicarbonate infusion. 302 33

We have compared the ventilatory responses of intact and carotid body-denervated (CBD) goats to moderate [partial pressure of O2 in arterial blood; (Pao2) approximately 44 Torr] and severe (Pao2 approximately 33 Torr) many time points for up to 7 days of hypobaria. In the intact group there were significant time-dependent decreases in partial pressure of CO2 in arterial blood (PaCO2) in both moderate and severe hypoxemia (approximately-7 and -11 Torr) that were largely complete by 8 h of hypoxemia and maintained throughout. Acute restoration of normoxia in chronically hypoxic intact animals produced time-dependent increases in Paco2 over 2 h, but hypocapnia persisted relative to sea-level control. Arterial plasma [HCO3-] and [H+] decreased, and [Cl-] increased with a time course and magnitude consistent with developing hypocapnia. Chronic CBD, per se, resulted in a sustained, partially compensated respiratory acidosis, as PaCO2 rose 6 Torr and base excess rose 3 mEq/1, [Cl-] fell 1 mEq/1, and pHa fell 0.01 units. During exposure to identical levels of arterial hypoxemia as in the intact group. CBD animals showed no significant changes in PaCO2, [H+]a, or [HCO3-]a at any time during moderate or severe hypoxemia. Plasma [C1-] remained within the normal range throughout exposure to moderate hypoxia and increased in severe hypoxia. In a few instances some hypocapnia was observed, but this was highly inconsistent and was always less than one-third of that observed in intact goats. In contrast to intact goats, acute restorations of normoxia in the chronically hypoxic CBD goats always caused hyperventilation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Carotid bodies are required for ventilatory acclimatization to chronic hypoxia. 308 45

We previously reported that changes in ileal net Na absorption correlated with arterial pH, changes in net HCO3 secretion correlated with the plasma HCO3 concentration, and changes in net Cl absorption correlated with arterial CO2 partial pressure (PCO2) during the systemic acid-base disorders. To determine whether changes in intracellular pH (pHi) and HCO3 concentration [( HCO3]i) mediated these effects, we measured pHi and calculated [HCO3]i in the distal ileal mucosa of anesthetized, mechanically ventilated Sprague-Dawley rats using 5,5-[14C]dimethyloxazolidine-2,4,-dione and [3H]inulin. Rats were studied during normocapnia, acute respiratory acidosis, and alkalosis, and uncompensated and pH-compensated acute metabolic acidosis and alkalosis. When animals in all groups were considered, mucosal pHi was not altered, but there were strong correlations between mucosal [HCO3]i and both arterial PCO2 (r = 0.97) and [HCO3] (r = 0.61). When we considered the rates of ileal electrolyte transport that characterized these acid-base disorders [A. N. Charney and L.P. Haskell, Am. J. Physiol. 245 (Gastrointest. Liver Physiol. 8): G230-G235, 1983], we found strong correlations between mucosal [HCO3]i and both net Cl absorption (r = 0.88) and net HCO3 secretion (r = 0.82). These findings suggest that the systemic acid-base disorders do not affect ileal mucosal pHi but do alter mucosal [HCO3]i as a consequence of altered arterial PCO2 and [HCO3]. The effects of these disorders on ileal net Cl absorption and HCO3 secretion may be mediated by changes in [HCO3]i. Arterial pH does not appear to alter ileal Na absorption through changes in the mucosal acid-base milieu.
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PMID:Effect of systemic acid-base disorders on ileal intracellular pH and ion transport. 308 16

Experiments were performed in isolated non-working guinea pig hearts perfused according to the Langendorff technique (95% O2, 5% CO2), to evaluate the relative contribution of the coronary endothelium to the formation of cardiac adenosine during hypoxia, hypercapnia, and acetylcholine infusion. For this purpose the adenine-nucleotides of the coronary endothelium were prelabeled by perfusion of isolated hearts with 3H-adenosine (10(-8) M) for 35 min. Changes in the relative specific radioactivity (RSA) of adenosine released into the coronary effluent perfusate were used to assess changes in the relative contribution of the coronary endothelium and cardiomyocytes to total cardiac adenosine release. Hypoxic perfusion (15% O2) doubled coronary flow and increased total adenosine release by about two orders of magnitude and in addition, substantially increased the release of 3H-adenosine. The RSA of adenosine, however, was consistently depressed. During hypercapnic acidosis (9% CO2) the increase in coronary flow was associated with only a small and transient rise in cardiac adenosine release, and did not influence the formation of 3H-adenosine. In the unpaced heart, acetylcholine (10(-7) and 2 X 10(-6) M) dose-dependently increased coronary flow and the release of both adenosine and 3H-adenosine. Within the first minute, the RSA of adenosine was increased, but thereafter was decreased relative to control. In the paced heart, the effects of acetylcholine (2 X 10(-6) M) were greatly attenuated. Increasing coronary flow by bradykinin and isosorbide dinitrate or decreasing heart rate by (-)N6-phenylisopropyl-adenosine did not significantly affect effluent perfusate concentration of adenosine or its RSA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contribution of coronary endothelial cells to cardiac adenosine production. 308 33

A number of clinically important features of isoflurane anaesthesia were studied in comparison to those of halothane. Two groups of dogs were used. After light premedication, anaesthesia was induced by mask, and both groups of dogs were maintained for 30 minutes at 1.5 X MAC value of either halothane or isoflurane in a combination of oxygen and nitrous oxide (50:50). All animals were ventilating spontaneously. There was no difference in the speed of induction of the halothane and isoflurane groups. Blood pressure in both groups dropped to approximately 7.5 kPa (56 mm Hg) during maintenance anesthesia (1.5 MAC), while the heart rate was significantly higher in the isoflurane group. Individual respiratory variables were not significantly different between the two groups, however the differences between the trends of the mean values were significant (Sign-test). In general, with isoflurane, respiration rates were lower, with the tidal volume and end tidal CO2 being greater. The trends in pH and arterial pCO2 showed a slightly more severe respiratory acidosis in the isoflurane group. However, neither group showed values corresponding to any expected clinical problems. Speed of recovery (determined by times to head-lift and righting-reflex) was greater in the isoflurane group. Previously known important features of isoflurane are low biodegradability, low blood: gas partition coefficient, and decreased myocardial sensitivity to catecholamines. It is concluded from this study that isoflurane deserves a place in canine anesthesia whenever these specific pharmacologic properties are desired.
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PMID:Comparison of isoflurane and halothane as inhalation anaesthetics in the dog. 309 32

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