An examination of early life sodium manipulation and its role in amphetamine sensitization in adult offspring

McBride, Shawna M.

January 2008

Thesis (Ph.D.)--University of Wyoming, 2008. / Title from PDF title page (viewed on Dec. 23, 2009). Includes bibliographical references (p. 110-121).

Les carboxylates de sodium réactifs de précipitation sélective des cations métalliques contenus dans les effluents liquides /

Pénéliau, Franck René. Lecuire, Jean-Marie.

January 2008

Reproduction de : Thèse doctorat : chimie : mention chimie minérale et analytique : Metz : 2003. / Titre provenant de l'écran-titre. Notes bibliographiques.

The absorption of matte by sodium carbonate, and the effect on the fire-assay

Foster, Leo Joseph. Keenan, John Thomas.

January 1904

Thesis (B.S.)--University of Missouri, School of Mines and Metallurgy, 1904. / The entire thesis text is included in file. Typescript. Illustrated by authors. Title from title screen of thesis/dissertation PDF file (viewed December 28, 2009)

Low-cycle fatigue of NiTi rotary instruments in hypochlorite

Abduljabbar, Fouad Abdulbaky.

January 2009

Thesis (M. D. S.)--University of Hong Kong, 2009. / Includes bibliographical references (leaves 50-62). Also available in print.

Solubility studies on the Na - F - PO4 system in sodium nitrate and in sodium hydroxide solutions

Selvaraj, Dinesh Kumar.

January 2003

Thesis (M.S.)--Mississippi State University. Department of Chemical Engineering. / Title from title screen. Includes bibliographical references.

Experimental study of the benefits of sodium carbonate on surfactants for enhanced oil recovery

Jackson, Adam Christopher

31 July 2015

The objective of this work was to evaluate chemical interactions in phase behavior experiments that make surfactant-polymer formulations with alkali complex to design. This experimental study of sodium carbonate shows improvement of microemulsion phase behavior with many crude oils in addition to its classical use to produce soap in-situ and raise pH to reduce potential for surfactant adsorption. Soap is generally not sufficient by itself for chemical flooding because it has low tolerance to calcium ions and low optimal salinity. The blending of synthetic surfactant with sodium carbonate is needed to increase the optimum salinity, increase the tolerance to calcium, and reduce the sensitivity to changes in salinity by broadening the active salinity window. Sodium carbonate can also be added to the surfactant formulation to adjust electrolyte concentration for optimal salinity. Evidence suggests that additional consideration should be given to sodium carbonate in enhanced oil recovery applications because of benefits that extend beyond the traditional application. The research presented in this work discusses experiments that were conducted for the purpose of studying the benefits of sodium carbonate on surfactant phase behavior. After phase behavior screening, the formulations were tested to demonstrate their performance in porous media. Core floods were conducted to test the potential use of chemical flooding for a field application with several low acid crude oils. Two of the core flood experiments with Berea sandstone reduced the residual oil below 1% with chemical injection. An acceptable pressure gradient was maintained and good sweep was obtained using an AMPS polymer at high temperature. Polymer was needed to make the slug and drive sufficiently viscous to recover the mobilized oil and reduce surfactant retention through good sweep efficiency. The experiments reported in this research have contributed to an ongoing effort to design a suitable alkali-surfactant-polymer chemical formulation for the application in a high permeability, high temperature (85 ºC) sandstone reservoir located in Indonesia. / text

Sodium Carbonate

Oil recovery

Surfactants

The role of intracellular cations in the expression of pro-inflammatory cytokines in rheumatoid arthritis

Foey, Andrew David

January 1995

Rheumatoid arthritis (RA) is a chronic inflammatory disease mediated, in part, by pro-inflammatory cytokines such a sI L- I P, TNFa andI L-6. Many factors may contribute to cytokine imbalances in this disease, for example, biochemical modulation of PBMCsa ndt heir membranes A. key membrane proteini s the Na/KATPase( sodium pump) responsible for ionic homeostasis Sodiump ump activity on rheumatoid PBMCsw as found to be markedly depressed when compared with healthy control cells possibly through an oxidative mechanism. Inhibition of the sodium pump by a cardiac glycoside inhibitor, ouabain, transiently upregulated[N a'ji levels and rapidly induced IL-10 and TNFa mRNA and protein in human PBMCs. In contrast, IL-6 production was significantly depressed. The sodium ionophore, monensin, caused a similar Na-dependent cytokine response to that of ouabain. This cytokine profile however, was reversed when studying rheumatoids ynovial fibroblasts where ouabain induced I L-6; IL- I and TNFa, on the other hand, were not expressed. An elevation in intracellulars odiumc an causea secondary rise in intracellular calcium levels through the action of a Na/Ca2+ exchanger. In studies using the calcium ionophore, A23187, it was observed that an elevation in [Ca 2+]i brought aboutt he induction of IL- IP and TNF(xi n PBMCs with a corresponding repression of IL-6 production. The data obtained in this study suggest that impaired N a/K-ATPase activity in rheumatoid cells, through elevations in intracellular cation levels, might help promote over-production of IL- IP and TNF(x by monocytes and IL-6 by synovial fibroblasts. This pattern of cytokine production conforms to that observed in rheumatoid synovial tissue in situ, thus supporting a role for this biochemical defect in contributing to the perpetuation of the chronic inflammatory state.

572

Interleukins; TNF; Sodium pump

Growth Rate of Marine Microalgal Species using Sodium Bicarbonate for Biofuels

Gore, Matthew

16 December 2013

With additional research on species characteristics and continued work towards cost effective production methods, algae are viewed as a possible alternative biofuel crop to current feedstocks such as corn. Current open pond production methods involve bubbling carbon dioxide (CO_(2)) gas into the media to provide a carbon source for photosynthesis, but this can be very inefficient releasing most CO_(2) back into the atmosphere. This research began by investigating the effect of sodium bicarbonate (NaHCO_(3)) in the growth media as an alternative carbon source to bubbling CO_(2) into the cultures. The second part examined if NaHCO_(3) could act as a lipid trigger in higher (10.0 g/L) concentrations. The microalgae species Dunaliella tertiolecta (Chlorophyta), Mayamaea spp. (Baciallariophyta) and Synechoccocus sp. (Cyanophyta) were grown with 0.0 g/L, 0.5g/L, 1.0 g/L, 2.0 g/L and 5.0 g/L dissolved NaHCO_(3) in modified seawater (f/2) media. To investigate effects of NaHCO_(3) on lipid accumulation, growth media cultures were divided into two ―lipid phase‖ medias containing either 0.0g/L (non-boosted) or 10.0 g/L (boosted) NaHCO_(3) treatments. Culture densities were determined using spectrophotometry, which showed both all three species are able to successfully grow in media ameliorated with these high NaHCO_(3) concentrations. Highest growth phase culture densities occurred in NaHCO_(3) concentrations of 2.0 g/L for D. tertiolecta and Mayamaea spp., and the 5.0 g/L treatment for Synechoccocus sp. Highest growth rates occurred in the 5.0 g/L NaHCO_(3) concentration treatments for D. tertiolecta, Mayamaea spp., and Synechoccocus sp. (0.205 d-1 ±0.010, 0.119 d-1 ±0.004, and 0.372 d-1 ±0.003 respectively). As a lipid accumulation trigger two of the three species (D. tertiolecta and Mayamaea spp) had their highest end day oil indices in a 10.0 g/L treatment. Highest oil indices occurred in boosted 5.0 g/L Dunaliella tertiolecta and 2.0 g/L Mayamaea spp. (13136 ± 895 and 62844 ± 8080 respectively (relative units)). The results obtained indicate NaHCO3 could be used as a photosynthetic carbon source for growth in all three species and a lipid trigger for D. tertiolecta and Mayamaea spp.

Algae

Biofuel

Sodium Bicarbonate

Lipid

Optimization of sodium MRI for the human knee at 4.7 tesla

Watts, Alexander John

Unknown Date

No description available.

Sodium

MRI

osteoarthritis

human

knee

The effect of NaOH treatment and sucrose and urea supplementation on the nutritive value of oat straw as determined in vitro and in vivo.

Adeleye, Isaac Omotosho Adewale.

January 1969

No description available.

Straw as feed

Sodium hydroxide