UMLS:C0847097 - FACTA Search

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Query: UMLS:C0847097 (acidity)
15,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe a model to calculate the buffering capacity of bicarbonate in the rumen. The addition of NaHCO3 results in the release of CO2 from solution and eventually from the rumen via eructation. This process directly neutralizes ruminal acidity. The degree to which the process continues depends on the partial pressure of CO2 in the gas phase, the pH, and a constant (7.74), according to the Henderson-Hasselbalch equation: pH = 7.74 + log([HCO3-]/pressure of CO2 in atmospheres). The addition of NaHCO3 to buffer solutions and ruminal fluid under high pressure of CO2 increased pH as predicted. The buffering capacity of ruminal fluid under CO2 was greater at low pH than was previously determined by titration in air. In contrast, in vitro systems in which CO2 is not permitted to escape may result in reduced buffering capacity. In vitro systems in which excess CO2 may escape (under N2 gas pressure) may result in uncontrolled pH elevation. Dilution of ruminal fluid under constant pressure of CO2 decreased ruminal pH as predicted by the model. The pH under different pressures at equilibrium and the buffering capacity are easily calculated for in vitro and in vivo systems.
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PMID:Calculation of the buffering capacity of bicarbonate in the rumen and in vitro. 965 91

Little is known about the effect of age on gastric alkaline and nonparietal secretion. Using a previously validated technique, we prospectively measured gastric HCO3- and nonparietal volume secretion, as well as secretion of H+, Na+, K+, and Cl-, in 114 healthy human beings over a wide age range (18-82 years). Each subject had normal oxyntic mucosal histology, was on no medication known to affect gastric secretion, and was studied under both basal (fasting) conditions and following stimulation of gastric H+ secretion by pentagastrin. There was a significant (p < 0.05) decline in gastric HCO3-, Na+, and nonparietal fluid secretion with advancing age, but not in H+, K+, Cl- or parietal fluid secretion. As a consequence of reduced gastric HCO3- and nonparietal fluid secretion, mean H+ concentrations in gastric juice increased significantly with advancing age. Thus, in healthy subjects with normal gastric histology, advancing age was associated with a significant decline in gastric HCO3-, Na+, and nonparietal fluid secretion, resulting in an increase in gastric acidity (H+ concentration).
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PMID:Effects of age on gastric alkaline and nonparietal fluid secretion in humans. 965 83

Among the limitations of continuous renal replacement therapy (CRRT) in patients with severe acute renal failure (ARF) and cardiovascular instability is the use of acetate in the substitution fluid. Acetate is required to maintain acidity of the polyelectrolytic solution to avoid calcium carbonate precipitation in the presence of bicarbonate. In addition, in patients with cardiovascular instability, acetate metabolism is impaired and further compromises hemodynamics. A new CRRT technique is proposed in which bicarbonate is used as a buffer, but the acetate requirements are cancelled: acetate free veno-venous hemofiltration (AF-CVVH). This technique allows control of acid-base disturbances independent of urea removal. This preliminary report describes the feasibility of the technique based on separate infusion of water and electrolytes administered prefiltration, and isotonic sodium bicarbonate administered post filtration. The setting of the technique, adapted to the PRISMA device (Hospal, Lyon, France), was based on a model predicting the bicarbonate infusion rate for a target plasma bicarbonate level. The AF-CVVH was compared with conventional, continuous veno-venous hemofiltration (CVVH) in a crossover study that showed AF-CVVH allowed fastest control of acidosis, avoiding 70 to 80 mmol/d of acetate transfer to the patient. Urea removal was similar with both techniques. It was concluded that AF-CVVH, when compared with CVVH, has the main advantage of separately controlling urea retention and metabolic acidosis in patients with severe ARF and cardiovascular instability.
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PMID:Assessment of acetate free continuous veno-venous hemofiltration in acute renal failure. 980 6

Hyperthermia has been introduced as a new modality of treatment for glioma. In these experiments, the cytotoxicity of hyperthermia in C6 glioma cells was enhanced by increasing the intracellular acidity with amiloride and/or 4,4'-diisothiocyanatostilbene-2,2' disulfonic acid (DIDS). Intracellular pH (pHi) is regulated mainly by Na+/H+ and HCO3-/Cl- antiports through the cell membrane, and amiloride acts on the former, DIDS on the latter to lower pHi. The cellular thermosensitivity to clinically achievable brain hyperthermia at 42 degrees C was enhanced by 0.5 mM amiloride (Na+/H+ antiport inhibitor). T0 values (T0 = the heating period required to reduce experimental survival rate by 1/e) at 42 degrees C without and with amiloride was 192 and 81 min, respectively. The addition of DIDS (HCO3-/Cl- antiport inhibitor) further enhanced. T0 value was 25 min. Fluorophotometric measurement of pHi was employed using the pH sensitive dye, bis(carboxyethyl)carboxyfluorescein, which is trapped in viable cells. The average pHi in control C6 glioma cells in pH 7.2 media was 7.21. In the untreated cells heated at 42 degrees C for 1 hour, the pHi was 7.12. The pHi of the cells heated in the presence of amiloride was decreased to 6.83. The pHi was further lowered to 6.67 by the treatment with amiloride in combination with DIDS for 2 hours. Hyperthermia with amiloride and DIDS may be a more effective treatment for malignant gliomas.
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PMID:Sensitization to hyperthermia by intracellular acidification of C6 glioma cells. 982 Nov 5

Capillary electrophoresis is a useful tool for the analysis of nucleotides. Methods have been optimized for both CZE and MECC modes. A variety of CZE buffers, such as borate, carbonate and phosphate were used successfully. The pH of the buffer changes the charge on the nucleotides. Therefore, the selectivity of the analytes can be controlled by the acidity of the buffer solution. CE separations of nucleotides have been performed at all pH levels, in both CZE and MECC modes. SDS was the most commonly used modifier in MECC separations, but other additives have been added to optimize selectivity. In addition, nucleotides have been quantified in different matrices, including tissue and cell extracts and several DNA and RNA sources. This paper summarizes the methods used for the optimization of nucleotides by CE and includes the most recent techniques to improve selectivity, reproducibility and sensitivity. A summary of CE methods is used in analyses of nucleotides in biological matrices is included.
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PMID:Analysis of nucleotides by capillary electrophoresis. 991 15

To understand more fully the role of the in vivo turtle shell in buffering lactic acid produced during prolonged anoxia, powdered turtle shell was incubated in vitro at constant pH (6.0, 6.5, 7.0, 7. 5 or 8.0) in electrolyte solutions simulating extracellular fluid. Exchanges of ions and CO2 between the shell and solution were evaluated by measuring pre- and post-incubation solution concentrations of calcium, magnesium, sodium, potassium, chloride, phosphate and lactate. The production of CO2 from the shell and lactate within the shell were also measured. We observed that calcium and magnesium, but not phosphate, were released from the shell in association with CO2 and that the magnitude of release of each increased with solution acidity. The amount of acid titration required to maintain constant pH also increased as solution pH fell. The CO2 loss, in mmol, was approximately half the acid titration (in mmol), indicating that the evolved CO2 derives from carbonate. When the incubating solution contained lactate (50 mmol l-1), lactate entered the shell and again the amount entering the shell increased with solution acidity. Shell samples containing high initial lactate levels lost lactate to the solution and at high pH (7.5) acidified the solution and required NaOH titration for pH-stat control. These results are consistent with observations on anoxic turtles in vivo and confirm the important role of the shell as a source of buffer and as a storage site for lactate.
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PMID:Ionic exchanges of turtle shell in vitro and their relevance to shell function in the anoxic turtle 992 54

We reported the high effectiveness of electrolyzed strong acid aqueous solution (ESAAS) in cleaning hemodialysis lines. Although ESAAS has a strong bactericidal action, one concern is its strong acidity. It has a pH of 2.3-2.7, more than 1,000 mV in oxidation-reduction potential (ORP), and 10-50 ppm of available chlorine. The possibility of metal corrosion, degradation of synthetic resins, chorine gas emission, or dissolving calcium carbonate (CaCO3) deposits due to ESAAS's acidity was tested using in vitro experiments. The bactericidal and antiviral effects of various ESAAS's were also tested. Metal corrosion and synthetic resin degradation, although they occurred, were not serious. There were no problems with chlorine gas emission and dissolving of CaCO3 deposits. Each type of ESAAS showed almost the same bactericidal and antiviral effect, but in some cases differences were observed.
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PMID:The effect of electrolyzed strong acid aqueous solution on hemodialysis equipment. 1061 23

Extracellular acidity is an important determinant of intervertebral disc matrix turnover, possibly exerting effects through changes of intracellular pH (pHi). There is, however, little information concerning the ways in which these cells regulate their pHi. Fluorimetric techniques have been used in the present study to measure pH in isolated intervertebral disc cells, and to characterise the membrane transport pathways by which it is regulated. Nucleus pulposus cells were obtained from bovine intervertebral discs by standard enzymatic digestion techniques, and loaded with the PH-sensitive fluoroprobe BCECF. Resting pHi was approximately 6.7 for cells suspended in either HEPES buffered (HBS) or CO2/HCO3--buffered (BBS) media. Intrinsic buffering capacity was approximately 19 mM pH unit(-1) in HBS and was increased when cells were suspended in BBS. A combination of ion substitution and inhibitor studies for cells at steady-state pH or acidified by exposure to NH4Cl revealed that in HBS Na+ x H+ exchange and an H+-ATPase extrude acid from these cells. Only one of these two systems, the Na+ x H+ exchanger, exhibited a sensitivity to pH, identifying it as the regulator of pH under these conditions. In BBS, an additional pathway which was dependent on extracellular Na+, extracellular HCO3- and intracellular Cl- was detected. These properties are consistent with the four ion HCO3--dependent transporter, although the cation-rich, anion-poor extracellular matrix of the intervertebral disc means that such a pathway has only a marginal role in disc cell pHi regulation.
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PMID:Regulation of intracellular pH by bovine intervertebral disc cells. 1084 2

Mine drainage from mercury mines in the California Coast Range mercury mineral belt is an environmental concern because of its acidity and high sulfate, mercury, and methylmercury concentrations. Two types of mercury deposits are present in the mineral belt, silica-carbonate and hot-spring type. Mine drainage is associated with both deposit types but more commonly with the silica-carbonate type because of the extensive underground workings present at these mines. Mercury ores consisting primarily of cinnabar were processed in rotary furnaces and retorts and elemental mercury recovered from condensing systems. During the roasting process mercury phases more soluble than cinnabar are formed and concentrated in the mine tailings, commonly termed calcines. Differences in mineralogy and trace metal geochemistry between the two deposit types are reflected in mine drainage composition. Silica-carbonate type deposits have higher iron sulfide content than hot-spring type deposits and mine drainage from these deposits may have extreme acidity and very high concentrations of iron and sulfate. Mercury and methylmercury concentrations in mine drainage are relatively low at the point of discharge from mine workings. The concentration of both mercury species increases significantly in mine drainage that flows through and reacts with calcines. The soluble mercury phases in the calcines are dissolved and sulfate is added such that methylation of mercury by sulfate reducing bacteria is enhanced in calcines that are saturated with mine drainage. Where mercury mine drainage enters and first mixes with stream water, the addition of high concentrations of mercury and sulfate generates a favorable environment for methylation of mercury. Mixing of oxygenated stream water with mine drainage causes oxidation of dissolved iron(II) and precipitation of iron oxyhydroxide that accumulates in the streambed. Both mercury and methylmercury are strongly adsorbed onto iron oxyhydroxide over the pH range of 3.2-7.1 in streams impacted by mine drainage. The dissolved fraction of both mercury species is depleted and concentrated in iron oxyhydroxide such that the amount of iron oxyhydroxide in the water column reflects the concentration of mercury species. In streams impacted by mine drainage, mercury and methylmercury are transported and adsorbed onto particulate phases. During periods of low stream flow, fine-grained iron hydroxide sediment accumulates in the bed load of the stream and adsorbs mercury and methylmercury such that both forms of mercury become highly enriched in the iron oxyhydroxide sediment. During high-flow events, mercury- and methylmercury-enriched iron hydroxide sediment is transported into larger aquatic systems producing a high flux of bioavailable mercury.
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PMID:Mercury mine drainage and processes that control its environmental impact. 1103 16

The successful development of peritoneal dialysis (PD) during the last two decades has been made possible by using well-established glucose-based solutions with lactate as buffer. On the other hand, awareness has been increasing about the potentially negative effects of the high concentrations of glucose and lactate, and the low pH of conventional PD solutions. This awareness has prompted an intensive effort to search for and test alternative solutions. As a result, three new, more biocompatible solutions-containing either less glucose or less lactate--are available. Amino acid-based solution uses amino acids instead of glucose as the osmotic agent; it is indicated for treatment of malnutrition. The higher pH and absence of glucose in this solution may prevent alterations of the peritoneal membrane caused by acidity and high glucose concentrations. Bicarbonate/lactate-buffered solution contains a physiologic concentration of bicarbonate and a reduced concentration of lactate; it also has a physiologic pH and markedly reduced levels of glucose degradation products (GDPs). Icodextrin-based solution contains icodextrin as the osmotic agent; it is indicated for long dwells, delivering sustained ultrafiltration for more than 16 hours. This iso-osmolar glucose-free solution may reduce peritoneal membrane alterations caused by glucose or the hyperosmolality (or both) of conventional solutions. Clinical experience of the new solutions is now extensive, and their efficacy and safety are well documented. It therefore seems appropriate to state that we have entered a new era of PD therapy. Each of the new solutions may be less damaging to the peritoneal membrane than conventional solution. In addition, they permit better management of malnutrition and fluid status, and may thus help to improve PD patient survival. Although the effects of each of these new solutions have been well described, clinical documentation of the combined use of these new biocompatible PD solutions is still insufficient. However, the results of studies are expected, during the coming years, to support the combined use of the new solutions as the preferred standard practice for PD.
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PMID:Biocompatibility of new peritoneal dialysis solutions: clinical experience. 1122 12

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