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

Acids and alkalies were instilled into the eyes of 2 groups of rabbits; the eyes of one group were washed with tap water 30 s after exposure. Damage seen in washed and unwashed eyes was not always related to pH. Some strong acids with greater acidity than pH 2.5 produced opacities while 0.3% hydrochloric acid with a pH of 1.28 produced no ocular damage. Phenol (5%) and acetic acid (5%) with pHs greater than 2.5 produced damage equivalent to or greater than that produced by equal concentrations (w/v) of the mineral acids. All alkalies with pHs ranging from 11.5 to 13.5 produced opacities and other ocular damage of different degrees depending upon the alkali and its concentration. For example, low concentrations of some alkalies in the pH range from 11.3 to 12.8 produced no ocular changes. The duration of the corneal opacities produced by phenol, 1% sodium hydroxide, acetic acid and anhydrous sodium carbonate and the onset of corneal opacity produced by 5% sulfuric acid, the weak acids and 1% sodium hydroxide were reduced as a result of washing the test eyes 30 s after instillation of the test material. These data suggest that acidity and alkalinity of the test material are not the only factors to be considered in relation to a substances' capacity to produce severe ocular injury. The concentration of the test chemical and its period of contact with the eye prior to washing are also important.
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PMID:Ocular irritancy responses to various pHs of acids and bases with and without irrigation. 698 67

This study concerns the inhibitory effects of acid pH and nickel on growth, nutrient (NO3- and NH4+) uptake, carbon fixation, O2 evolution, electron transport chain and enzyme (nitrate reductase and ATPase) activities of acid tolerant and wild-type strains of Chlorella vulgaris. Though a general reduction in all these variables was noticed with decreasing pH, the tolerant strain was found to be metabolically more active than the wild-type. A reduced cation (NH4+, Na+, K+ and Ca2+) uptake, coupled with a facilitated influx of anions (NH4+, PO4(3-) and HCO3-), suggested the development of a positive membrane potential in acid tolerant Chlorella. Nevertheless, a tremendous increase in ATPase activity at decreasing pH revealed the involvement of superactive ATPase in exporting H+ ions and keeping the internal pH neutral. A difference in Na+ and K+ efflux of the two strains at decreasing pH suggests there is a difference in membrane permeability. The low toxicity of Ni in the acid tolerant strain may be due to the low Ni uptake brought about by a change in membrane potential as well as in permeability. Hence, the development of superactive ATPase and a change in both membrane potential and permeability not only offers protection against acidity, but also co-tolerance to metals.
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PMID:Effect of nickel on certain physiological and biochemical behaviors of an acid tolerant Chlorella vulgaris. 814 21

Bicarbonate-calcic water Ferrarelle has been administered both in the fasting state and during meals to patients suffering from gastro-esophageal reflux disease submitted to computerized pHmetry. Marked and lasting increase of esophageal and gastric pH was observed with significant differences from the effect of tap water. In addition, patients reported improvement of heart burn and acidity after the administration of the bicarbonate-calcic water. The alkalizing effect of the mineral water employed is therefore fully confirmed.
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PMID:[Alkalizing activity of a calcium-bicarbonate-containing water, evaluated for pH, in patients with gastroesophageal reflux]. 822 43

Most antacids contain magnesium and/or aluminium hydroxide but some include also bicarbonate and calcium carbonate. The net effect of antacid action is the reduction in gastric acidity and in peptic activity but recent studies indicate that aluminium-containing antacids exhibit the cytoprotective activity or enhancement of natural mucosal defense mechanisms. This protective action has been attributed, in part, to the release of endogenous prostaglandins but other mediators such as hexa-aquo-aluminium cation and nitric oxide have also been proposed. Aluminium-containing antacids are known to accelerate the healing of chronic gastroduodenal ulcerations and this has been attributed primarily to their acid neutralizing capacity. Since antacids interact with luminal epidermal growth factor (EGF) which exhibits ulcer healing properties it has been proposed that this peptide is implicated in the healing of gastroduodenal ulcerations by these drugs.
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PMID:New aspects of clinical pharmacology of antacids. 826 Jul 35

The barrier that protects the undamaged gastroduodenal mucosa from autodigestion by gastric juice is a dynamic multicomponent system. The major elements of this barrier are the adherent mucus gel layer, which is percolated by the HCO3- secretion from the underlying epithelial cells; the epithelial layer itself, which provides a permeability barrier and can rapidly repair superficial damage by a process of cell migration referred to as reepithelization or restitution; and a specially adapted vasculature, which provides a supply of HCO3- for transcellular transport and/or diffusion into the mucus layer. Passive diffusion of intestinal HCO3- into the lumen is particularly important when there is superficial damage resulting in increased leakiness of the mucosal epithelium. The process of reepithelization occurs by the migration of performed cells from gastric pits or duodenal crypts. This process is quite distinct from the wound healing and associated inflammatory response that accompany more severe injury or chronic damage. The adherent mucus gel acts as a physical barrier against luminal pepsin and provides a stable unstirred layer that supports surface neutralization of acid by mucosal HCO3-. Surface neutralization by mucosal HCO3- provides a major mechanism of protection against acid in the proximal duodenum. In the stomach, where luminal acidity can fall to around pH 1, other mechanisms of protection must exist, since the surface pH gradient is reported to collapse when luminal H+ exceeds approximately 10 mM. This collapse of the surface pH gradients may reflect, at least in part, that such studies have been mostly performed on non-acid-secreting mucosa where the supply of HCO3- to the interstitium from the parietal cells will be reduced. However, because the gastric mucosa can withstand prolonged exposure to acid without apparent damage, this implies an intrinsic resistance of the epithelial apical surface. This is amply illustrated within the gastric glands that do not secrete mucus and HCO3- yet are exposed to undiluted pepsin and an isotonic solution of HCl. Bicarbonate and mucus secretions together with mucosal blood flow are under paracrine, endocrine, and neural control. The rate of reepithelialization will depend on local chemotactic factors, adhesion mechanisms, and the creation of an acid/pepsin/irritant-free environment under a protective gelatinous or mucoid cap. If optimal conditions are met, then the rate of reepithelialization appears to depend primarily on the intrinsic properties of the migrating cells themselves rather than control by exogenous mediators.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Gastroduodenal mucosal protection. 841 27

The previously accepted role of gastric acid hypersecretion in peptic ulcer disease has been modified by studies showing no correlation between acid output and clinical outcome of ulcer disease, or between ulcer recurrence rate after vagotomy and preoperative acid secretion. At the same time, studies have been unable to demonstrate increased acidity in the duodenal bulb in patients with duodenal ulcer, and consequently more emphasis has been given to the mucosal protecting mechanisms. The existence of an active gastric and duodenal mucosal bicarbonate secretion creates a pH gradient from the luminal acid to near neutrality at the surface of the epithelial cells, thereby acting as an important mucosal defence mechanism. The regulation of bicarbonate secretion is a complex process related to motility and neural activity. Stimulation is by acid, PGE2, NO, VIP, cAMP, and mucosal protective agents. Bicarbonate secretion is inhibited by atropine, muscarinic antagonists, alpha-adrenoceptor agonists, indomethacin, bile acids, tobacco smoking, and probably also by infection by Helicobacter pylori. Apart from mucus and bicarbonate, the mucosal defence is supported by a hydrophobic epithelial lining, rapid cell removal and repair regulated by epidermal growth factor. Sufficient mucosal blood flow, including a normal acid/base balance, is important for subepithelial protection. In today's model of ulcer pathogenesis, gastric acid and H. pylori work in concert as aggressive factors, with the open question being: why does only a fraction of the infected population develop an ulcer?
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PMID:Peptic ulcer pathophysiology: acid, bicarbonate, and mucosal function. 872 73

We measured gastric juice fluid output, acidity, tonic strength (osmolality), and pepsin concentrations basally and after the injection of pentagastrin in 120 healthy African Americans and 60 Caucasian Americans of similar age and gender. Sera for basal gastrin concentration and IgG for antibody to Helicobacter pylori (Hp) organisms also were obtained, as were gastric body mucosal biopsies to ascertain the presence or absence of Hp or gastritis. Gastric juice hydrogen ion concentrations and osmolality were significantly lower in African Americans than in Caucasians. At the same time, African Americans had significantly higher gastric juice fluid outputs than did Caucasians. From measurements of gastric juice fluid output, acidity, and osmolality, we used a previously validated method for calculating gastric HCO3- and H+ secretion, as well as nonparietal and parietal fluid secretion. Gastric HCO3 secretion and nonparietal fluid were significantly higher in African Americans, while H+, parietal fluid, and pepsin secretion rates were nearly identical in the two racial groups. Basal serum gastrin concentrations and antibody titers to Hp also were significantly higher in African Americans (p < .001). Mucosal biopsies demonstrated a much higher prevalence of Hp infection and chronic active superficial gastritis in African Americans than Caucasians (p < .001). When only Hp-negative subjects were considered, racial differences in gastric secretion and basal serum gastrin concentration were still present. The mechanism or mechanisms causing higher gastric bicarbonate and nonparietal fluid secretion and for higher serum gastrin concentrations in African Americans remains to be elucidated.
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PMID:Racial differences in gastric function among African Americans and Caucasian Americans: secretion, serum gastrin, and histology. 895 72

Renal acid excretion and proximal and distal nephron acidification were evaluated 20 days after induction of diabetes, in rats, by intraperitoneal injection of streptozotocin (45 mg/kg). Titratable acidity in urine was measured by microtitration and ammonium excretion (NH4+) by spectrophotometry. Proximal tubular acidification was evaluated by the kinetics of reabsorption of perfused HCO3-. Distal nephron acidification was evaluated by measuring urine - blood pCO2 differences under alkaline overload. The net acid excretion (titratable acidity + NH4+ - HCO3-) was higher (p < 0.001) in diabetic rats (9.82+/-0.65 micromol/min/kg, n = 26) than in the control group (6.34+/-0.14, n = 24). Proximal HCO3- reabsorption was also higher (p < 0.001) in diabetic rats (8.38+/-0.11 nmol/cm2/s, n = 12) than in the control group (2.30+/-0.10, n = 22); however, evaluation of distal nephron H+ secretion by urine - blood pCO2 methodology was similar in both groups. We concluded that in rats with induced diabetes mellitus there is an increased rate of proximal HCO3- reabsorption, possibly effected by a higher density of Na+/H+ antiporter in the luminal membrane of the proximal tubule and by an increased proton-motive force of the H+ secretory mechanism. The higher rates of H+ secretion generate lower stationary proximal luminal pH and probably maintain the blood pH within the physiological range.
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PMID:Alterations of the renal handling of H+ in diabetic rats. 939 31

Oxidation and hydrolysis of a cytosine residue can lead to the formation of 5-hydroxyuracil in DNA. The biological consequences of this modification are not fully understood. To facilitate biochemical and biophysical studies aimed at elucidating the effects of this modification in DNA, we have developed a solid-phase synthetic method for the placement of 5-hydroxyuracil residues at defined sites in oligodeoxynucleotides. This method is based upon the enhanced acidity of the 5-hydroxyl proton which allows selective aqueous acetylation. Under standard aqueous ammonia deprotection conditions, however, we observed that 5-hydroxyuracil residues are lost substantially from synthetic oligonucleotides. Substitution of aqueous ammonia with methanolic potassium carbonate and the use of phosphoramidite derivatives with alternatively protected amino groups allow synthesis of oligonucleotides containing 5-hydroxyuracil and all normal bases in high yield. The composition of the oligodeoxynucleotides prepared by this method has been verified by enzymatic digestion followed by high-performance liquid chromatography (HPLC) analysis as well as acid hydrolysis followed by GC/MS analysis. The location of the 5-hydroxyuracil residue is demonstrated by selective permanganate oxidation of the 5-hydroxyuracil residue followed by beta-elimination. We have also probed a synthetic oligonucleotide containing a unique 5-hydroxyuracil residue with uracil DNA N-glycosylase, previously reported to remove this lesion from DNA.
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PMID:Synthesis and cleavage of oligodeoxynucleotides containing a 5-hydroxyuracil residue at a defined site. 940 79

Uroguanylin is an intestinal peptide hormone that may regulate epithelial ion transport by activating a receptor guanylyl cyclase on the luminal surface of the intestine. In this study, we examined the action of uroguanylin on anion transport in different segments of freshly excised mouse intestine, using voltage-clamped Ussing chambers. Uroguanylin induced larger increases in short-circuit current (Isc) in proximal duodenum and cecum compared with jejunum, ileum, and distal colon. The acidification of the lumen of the proximal duodenum (pH 5.0-5.5) enhanced the stimulatory action of uroguanylin. In physiological Ringer solution, a significant fraction of the Isc stimulated by uroguanylin was insensitive to bumetanide and dependent on HCO3- in the bathing medium. Experiments using pH-stat titration revealed that uroguanylin stimulates serosal-to-luminal HCO3- secretion (Js-->lHCO3-) together with a larger increase in Isc. Both Js-->lHCO3- and Isc were significantly augmented when luminal pH was reduced to pH 5.15. Uroguanylin also stimulated the Js-->lHCO3- and Isc across the cecum, but luminal acidity caused a generalized decrease in the bioelectric responsiveness to agonist stimulation. In cystic fibrosis transmembrane conductance regulator (CFTR) knockout mice, the duodenal Isc response to uroguanylin was markedly reduced, but not eliminated, despite having a similar density of functional receptors. It was concluded that uroguanylin is most effective in acidic regions of the small intestine, where it stimulates both HCO3- and Cl-secretion primarily via a CFTR-dependent mechanisms.
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PMID:Regulation of intestinal Cl- and HCO3-secretion by uroguanylin. 957 44


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