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)

Exposures to acid aerosols have been associated with acute and chronic health effects. Beginning in 1988, extensive monitoring of acid aerosols (H+), sulfates (SO4(2-)), and ammonia (NH3) was conducted in 24 communities in the United States and Canada in order to characterize the seasonal and daily variations of these pollutants. More recently, in 1992 and 1993, summer monitoring of the same pollutants was conducted by Harvard researchers at multiple locations in Philadelphia, Pennsylvania to examine the factors causing spatial variation in the acidity levels in the greater metropolitan Philadelphia area. Earlier, a similar study also was conducted by Harvard in a more rural community, State College, Ohio, providing data on acidity, sulfate, and ammonia levels. In addition to these studies, New York University researchers have gathered substantial data on aerosol acidity, sulfates, and NH3 levels from sites in the New York City metropolitan region, Albany, Buffalo, and the Toronto metropolitan region between 1988 and 1992. This paper examines the relationships among H+, SO4(2-), ozone, and population density using summer measurements from sites in 24 cities across the United States and Canada, as well as Philadelphia, State College, the New York City region, Buffalo, and Albany. While past studies have consistently shown that H+ and SO4(2-) are correlated over time at sites in eastern North America, the results of our analysis show that spatial variations in the ratios of mean acid-to-sulfate levels also can be predicted satisfactorily with the use of either a linear or a quadratic model, once variations in population density are addressed (R2 = 0.6). These models may be useful in retrospective epidemiological investigations of acid aerosol exposures and health effects, using widely available sulfate measurements and data on local population size.
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PMID:Intercommunity differences in acid aerosol (H+)/sulfate (SO4(2-) ratios. 877 73

The role of fog in the symptomatology in asthmatic subjects has been assessed by a questionnaire concerning respiratory complaints linked to meteorological conditions and to non-specific irritant factors. In a population of 121 asthmatics (59 men and 62 women) 74.4% complained that fog was a factor aggravating their symptoms while only 3% of a group of 30 non-asthmatic subjects expressed discomfort during episodes of fog. The chemical analysis of fog during 32 episodes of local fog (pH, chloride, nitrate, sulphate, sodium, ammonia, potassium, magnesium, calcium) has shown a greater concentration of pollutants and greater acidity in the smaller particles (2-6 microns) which are able to penetrate the bronchial tree. This acidity could explain the role of fog in respiratory physiology. Certain authors have suggested that the aggravation of respiratory symptoms observed during peaks of pollution could be induced by aerosols containing sulphuric acid while others have described effects on respiratory function at the time of exposure to acid aerosols in asthmatic subjects but the results of the different studies have not all been concordant. Putting aside the role of the susceptible individual, other factors may intervene at the time inhalation of pollutants, notably the ambient humidity, the neutralising effect of endogenous ammonia and the synergystic effect between acid aerosols and atmospheric pollutants.
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PMID:[Study by questionnaire of the influence of weather conditions, particularly fog, on the symptomatology of asthmatic subjects]. 887 63

Helicobacter pylori (Hp) is considered as the major pathogen in Hp-associated gastritis but the mechanism of its action has not been fully explained. We investigated both the damaging and protective effects of intragastric (i.g.) application of ammonia (NH4OH) and ammonium ion (NH4Cl), the major products of Hp-derived urease, on the rat stomach with intact and capsaicin-deactivated sensory nerves or suppressed prostaglandin (PG) and nitric oxide (NO) synthesis. NH4OH given i.g. resulted in a concentration-dependent mucosal damage starting at 30 mM and reaching maximum at 250 mM (pH 11), the extent of damage being similar to that obtained with 100% ethanol. NaOH solution (1 mM) at pH 11 given i.g. did not affect mucosal integrity. The damage caused by NH4OH was accompanied by the fall in gastric blood flow (GBF) reaching at 250 mM NH4OH about 30% of the vehicle control value. The NH4OH-induced gastric damage was augmented by capsaicin-induced deactivation of sensory nerves, the suppression of nitric oxide (NO) synthase with L-NAME or the decrease of i.g. acidity by ranitidine. The pretreatment with scavengers of reactive oxidants significantly reduced the area of NH4OH-induced gastric lesions. When the mucosa was first exposed to a low 15-mM concentration of NH4OH and then insulted with large 250 mM NH4OH or with 100% ethanol, the lesion area was markedly reduced as compared to that obtained with 250 mM NH4OH or 100% ethanol alone. This adaptive protection by 'mild' concentration of NH4OH against strong irritants (250 mM NH4OH or 100% ethanol) was reversed, in part, by pretreatment with L-NAME and indomethacin. NH4Cl (60-500 mM) given i.g. alone failed to affect the mucosal integrity but when applied before 100% ethanol it produced a concentration-dependent fall in the mucosal damage by these irritants. We conclude that; (1) ammonia at higher concentrations damages the gastric mucosa, while ammonium ion exerts the protective activity; (2) the ammonia-induced gastric damage may involve the formation of reactive oxidants; (3) ammonia at lower concentration acts like a mild irritant via the activation of sensory nerves, NO-arginine pathway and PG.
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PMID:Gastric mucosal damage and adaptive protection by ammonia and ammonium ion in rats. 891 6

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

The effects of the major nitrogenous components of urine (ammonia, creatinine, urea and uric acid) on sperm motility were investigated. Semen samples were obtained by masturbation from a young volunteer with a normal spermiogram and fertility. Sperm motility was measured using a Sperm Quality Analyzer and Makler Chamber. When semen was mixed with a urine sample for which acidity and osmolality were adjusted to pH 7.5 and 340 mOsm/kg, the higher the concentration of the urine, the poorer the sperm motility. When solutions of various concentrations of the nitrogenous compounds which are excreted in urine were mixed with semen, sperm motility decreased in proportion to ammonia levels and was markedly decreased after 30 min. However, in the case of creatinine, urea and uric acid, good motility was maintained for 30 min regardless of their amounts. In conclusion, urine ammonia content is detrimental to sperm motility and may be an important factor in retrograde ejaculation.
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PMID:Effects of nitrogenous components of urine on sperm motility: an in vitro study. 963 49

Responses in dry matter intake (DMI) and acidbase balance to three sources of anionic salts (dietary cation-anion difference = -63 to -40 meq/kg of dry matter), an acidified fermentation by-product, MgSO4.7H2O + NH4Cl, and MgSO4.7H2O + CaCl2.2H2O + CaSO4, were evaluated relative to the responses of cows fed a control diet (dietary cationanion difference = 203 meq/kg of dry matter) that did not contain anionic salts. Diets were fed for 1-wk periods to eight nonlactating Holsteins assigned to two replicated 4 x 4 Latin squares. Daily DMI increased as time of access to the diet increased up to d 5; mean DMI over d 5 to 7 was reduced by dietary anionic salts. Diets containing anionic salts induced a mild metabolic acidosis that was completely compensated by nonrespiratory mechanisms (decreased blood bicarbonate and base excess; pCO2 and pH values were unaffected). Urinary pH values and bicarbonate excretion were reduced, and urinary NH4+ and titratable acidity excretion were increased, for cows fed diets containing anionic salts. Strong ion difference in urine was decreased by dietary anionic salts because of the relatively greater excretions of Cl- and S2- versus Na+ and K+ by cows fed these diets. Dietary anionic salts decreased mean ruminal pH by 0.12 units, possibly because of the reduced strong ion difference of ruminal fluid. Dietary anionic salts increased mean ruminal NH3 concentration by 2.2 mM, probably because of the higher nonprotein N content of these diets. The strong negative relationship (r2 = 0.95) between urinary pH and net acid excretion by cows fed the diets containing anionic salts suggested that urinary pH measurement might be a useful tool to assess the degree of metabolic acidosis that was imposed by dietary anionic salts.
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PMID:Effects of dietary cation-anion difference on the acid-base status of dry cows. 968 72

A combination of denaturing gradient gel electrophoresis (DGGE) and oligonucleotide probing was used to investigate the influence of soil pH on the compositions of natural populations of autotrophic beta-subgroup proteobacterial ammonia oxidizers. PCR primers specific to this group were used to amplify 16S ribosomal DNA (rDNA) from soils maintained for 36 years at a range of pH values, and PCR products were analyzed by DGGE. Genus- and cluster-specific probes were designed to bind to sequences within the region amplified by these primers. A sequence specific to all beta-subgroup ammonia oxidizers could not be identified, but probes specific for Nitrosospira clusters 1 to 4 and Nitrosomonas clusters 6 and 7 (J. R. Stephen, A. E. McCaig, Z. Smith, J. I. Prosser, and T. M. Embley, Appl. Environ. Microbiol. 62:4147-4154, 1996) were designed. Elution profiles of probes against target sequences and closely related nontarget sequences indicated a requirement for high-stringency hybridization conditions to distinguish between different clusters. DGGE banding patterns suggested the presence of Nitrosomonas cluster 6a and Nitrosospira clusters 2, 3, and 4 in all soil plots, but results were ambiguous because of overlapping banding patterns. Unambiguous band identification of the same clusters was achieved by combined DGGE and probing of blots with the cluster-specific radiolabelled probes. The relative intensities of hybridization signals provided information on the apparent selection of different Nitrosospira genotypes in samples of soil of different pHs. The signal from the Nitrosospira cluster 3 probe decreased significantly, relative to an internal control probe, with decreasing soil pH in the range of 6.6 to 3.9, while Nitrosospira cluster 2 hybridization signals increased with increasing soil acidity. Signals from Nitrosospira cluster 4 were greatest at pH 5.5, decreasing at lower and higher values, while Nitrosomonas cluster 6a signals did not vary significantly with pH. These findings are in agreement with a previous molecular study (J. R. Stephen, A. E. McCaig, Z. Smith, J. I. Prosser, and T. M. Embley, Appl. Environ. Microbiol 62:4147-4154, 1996) of the same sites, which demonstrated the presence of the same four clusters of ammonia oxidizers and indicated that selection might be occurring for clusters 2 and 3 at acid and neutral pHs, respectively. The two studies used different sets of PCR primers for amplification of 16S rDNA sequences from soil, and the similar findings suggest that PCR bias was unlikely to be a significant factor. The present study demonstrates the value of DGGE and probing for rapid analysis of natural soil communities of beta-subgroup proteobacterial ammonia oxidizers, indicates significant pH-associated differences in Nitrosospira populations, and suggests that Nitrosospira cluster 2 may be of significance for ammonia-oxidizing activity in acid soils.
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PMID:Analysis of beta-subgroup proteobacterial ammonia oxidizer populations in soil by denaturing gradient gel electrophoresis analysis and hierarchical phylogenetic probing 968 57

Peptic ulcer disease and gastric cancer of the antrum and body have been declining in the 20th century. In contrast, a new group of diseases are increasingly rapidly in Western countries: gastroesophageal reflux disease, Barrett's esophagus, and adenocarcinoma of the distal esophagus. Recent studies suggest this phenomenon may be related to the simultaneous fall in the prevalence of Helicobacter pylori (H. pylori) colonization, especially by the virulent cagA + strains. H. pylori infection with the cagA+ strain is potentially protective against the spectrum of gastroesophageal reflux disease because it lowers intragastric acidity as the result of a pangastritis, frequently with multifocal gastric atrophy and possibly increased intragastric ammonia production. Assuming that some types of H. pylori strains are protective, our entire approach to the worldwide elimination of this organism, sometimes indiscriminately, will need critical reevaluation.
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PMID:Helicobacter pylori and gastroesophageal reflux disease: the bug may not be all bad. 1052 Aug 76

Two problems can be identified as possible long term negative consequences of HP eradication: diminished efficacy of acid-lowering drugs, and an accelerated development of GERD. It was shown that omeprazole produces a greater decrease in gastric acidity in subjects with H. pylori infection than in those who are H. pylori negative, and that omeprazole produces a smaller decrease in gastric acidity after cure of H. pylori. This effect persisted for at least one year after HP eradication. It is not limited to omeprazole, but can also be seen with the H2 receptor antagonist ranitidine. At least one proven mechanism involved in this phenomenon is the disappearance of the alkalinizing effect of ammonia, generated from urea by HP's urease, after eradication of the bacteria; other mechanisms may also be involved. HP eradication may therefore potentially hamper acid inhibitory treatment. It is unknown to what extent this is clinically relevant. Although one study did not observe a relation between H. pylori status and efficacy of omeprazole maintenance therapy for GERD, it cannot be excluded that some patients may need more potent or higher doses of acid-lowering medication after HP eradication. Three studies suggest that duodenal ulcer patients who were successfully treated with H. pylori eradication therapy, may be at increased risk to develop GERD. Labenz's study finds that the incidence of GERD may be double 3 years after eradication. The life-table analysis suggested that cure of the infection was associated with an increased risk of reflux oesophagitis during the first year after treatment, whereas later the incidence of reflux oesophagitis was similar in both groups. Patients who developed reflux oesophagitis after the cure had a more severe body gastritis before cure, gained weight more frequently after cure, and were predominantly men. There are no data on the fate of the oesophagus after HP eradication in patients with reflux oesophagitis. The data thus strongly suggest that there is a risk for developing reflux oesophagitis after HP eradication in patients with duodenal ulcer. It is unknown whether HP eradication in patients without duodenal ulcer also increases the risk for developing reflux oesophagitis.
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PMID:Adverse events of HP eradication: long-term negative consequences of HP eradication. 979 71

Twenty-four-hour samples of PM10 (mass of particles with aerodynamic diameter < or = 10 microm), PM2.5, (mass of particles with aerodynamic diameter < or = 2.5 microm), particle strong acidity (H+), sulfate (SO42-), nitrate (NO3-), ammonia (NH3), nitrous acid (HONO), and sulfur dioxide were collected inside and outside of 281 homes during winter and summer periods. Measurements were also conducted during summer periods at a regional site. A total of 58 homes of nonsmokers were sampled during the summer periods and 223 homes were sampled during the winter periods. Seventy-four of the homes sampled during the winter reported the use of a kerosene heater. All homes sampled in the summer were located in southwest Virginia. All but 20 homes sampled in the winter were also located in southwest Virginia; the remainder of the homes were located in Connecticut. For homes without tobacco combustion, the regional air monitoring site (Vinton, VA) appeared to provide a reasonable estimate of concentrations of PM2.5 and SO42- during summer months outside and inside homes within the region, even when a substantial number of the homes used air conditioning. Average indoor/outdoor ratios for PM2.5 and SO42- during the summer period were 1.03 +/- 0.71 and 0.74 +/- 0.53, respectively. The indoor/outdoor mean ratio for sulfate suggests that on average approximately 75% of the fine aerosol indoors during the summer is associated with outdoor sources. Kerosene heater use during the winter months, in the absence of tobacco combustion, results in substantial increases in indoor concentrations of PM2.5, SO42-, and possibly H+, as compared to homes without kerosene heaters. During their use, we estimated that kerosene heaters added, on average, approximately 40 microg/m3 of PM2.5 and 15 microg/m3 of SO42- to background residential levels of 18 and 2 microg/m3, respectively. Results from using sulfuric acid-doped Teflon (E.I. Du Pont de Nemours & Co., Wilmington, DE) filters in homes with kerosene heaters suggest that acid particle concentrations may be substantially higher than those measured because of acid neutralization by ammonia. During the summer and winter periods indoor concentrations of ammonia are an order of magnitude higher indoors than outdoors and appear to result in lower indoor acid particle concentrations. Nitrous acid levels are higher indoors than outdoors during both winter and summer and are substantially higher in homes with unvented combustion sources.
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PMID:Indoor, outdoor, and regional summer and winter concentrations of PM10, PM2.5, SO4(2)-, H+, NH4+, NO3-, NH3, and nitrous acid in homes with and without kerosene space heaters. 1006 53

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