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Development of an Analytical Method ...
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Willis, Sean Dustin.
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Development of an Analytical Method for the Detection and Quantitation of Nitrite as a Biomarker of Nitric Oxide and Reactive Nitrogen Species in Biological Samples.
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Development of an Analytical Method for the Detection and Quantitation of Nitrite as a Biomarker of Nitric Oxide and Reactive Nitrogen Species in Biological Samples./
作者:
Willis, Sean Dustin.
面頁冊數:
130 p.
附註:
Source: Masters Abstracts International, Volume: 52-01.
Contained By:
Masters Abstracts International52-01(E).
標題:
Chemistry, Analytical. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=1540971
ISBN:
9781303221118
Development of an Analytical Method for the Detection and Quantitation of Nitrite as a Biomarker of Nitric Oxide and Reactive Nitrogen Species in Biological Samples.
Willis, Sean Dustin.
Development of an Analytical Method for the Detection and Quantitation of Nitrite as a Biomarker of Nitric Oxide and Reactive Nitrogen Species in Biological Samples.
- 130 p.
Source: Masters Abstracts International, Volume: 52-01.
Thesis (M.S.)--University of Kansas, 2013.
The brain is a complex organ, consisting of blood vessels, neurons, neuronal support cells, and meninges. The extracellular space surrounding the neurons is a very complex microenvironment, containing proteins, growth factors, neurotransmitters, and other small molecules. Microdialysis has been extensively used for sampling analytes from extracellular spaces in tissues. The microdialysis membrane excludes large molecules, making it possible to obtain protein free samples from this space that do not require any cleanup steps. The use of microdialysis allows the sampling of multiple analytes in extracellular spaces from multiple regions, making it possible to obtain a temporal profile over the time course of an experiment.
ISBN: 9781303221118Subjects--Topical Terms:
586156
Chemistry, Analytical.
Development of an Analytical Method for the Detection and Quantitation of Nitrite as a Biomarker of Nitric Oxide and Reactive Nitrogen Species in Biological Samples.
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The brain is a complex organ, consisting of blood vessels, neurons, neuronal support cells, and meninges. The extracellular space surrounding the neurons is a very complex microenvironment, containing proteins, growth factors, neurotransmitters, and other small molecules. Microdialysis has been extensively used for sampling analytes from extracellular spaces in tissues. The microdialysis membrane excludes large molecules, making it possible to obtain protein free samples from this space that do not require any cleanup steps. The use of microdialysis allows the sampling of multiple analytes in extracellular spaces from multiple regions, making it possible to obtain a temporal profile over the time course of an experiment.
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High performance liquid chromatography (LC) coupled with ultraviolet (UV) and electrochemical (EC) detection makes it possible to analyze samples collected via microdialysis with high throughput. Our lab has developed an LC UV-EC based separation and detection method that is capable of the high throughput needed to analyze small sample volumes directly from animal studies to study changes in nitric oxide synthase (NOS) activity and reactive nitrogen species formation in the brain and other tissues with high temporal resolution.
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In this thesis, an LC based ion-pair chromatography method is described in conjunction with EC and UV detection methods for the determination of primary and secondary products of nitric oxide metabolism (nitrite and nitrate) in the microdialysate. The development of an ion-pair based separation and combined UV-EC detection of nitrite and nitrate were the fundamental steps for the optimization of separation of nitrite and nitrate present in microdialysates. Detection optimization for nitrite and nitrate was carried out in the same matrix as that of perfusate used in animal experiments. Separation conditions consisted of 1 mM tetrabutylammonium hydroxide (TBAOH), 15 mM sulfate at pH 4.0, a flow rate of 0.1 mL/min, using a C-18 4 microM 1x150 mm column as the stationary phase. Microdialysis samples were then injected, separated, and detected using LC with UV-EC detection.
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The first application of this method involved monitoring changes in nitrite and nitrate concentrations in the rat hippocampus region as a result of chemically-induced excitotoxicity. 3-Mercaptopropionic acid (MPA) was perfused through a microdialysis probe into the hippocampus brain region of a rat, as had occurred in past studies of our research group. In contrast to the elevation of other biomarkers seen by the administration of this compound, this method was unable to detect changes in the concentration of nitrite, and the changes found for nitrate appeared to be random.
520
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The last application of this method involved monitoring changes in nitrite levels in a freely moving sheep administered nitroglycerin through infusion and topical application to the skin, and histamine injection into the skin. This study served to further validate the developed method for wider application beyond rat brain studies and to compare it to a microchip-based amperometric nitrite detection method developed by the S. Lunte research group. Nitroglycerin infusion produced a response in time course experiments that is in agreement by both methods. Limits of detection, quantitation, and sensitivity were higher with this developed method in comparison to the method under development by the S. Lunte group. Furthermore, because this developed method was capable of determining nitrite concentrations in microdialysis samples, it was used to quantitatively measure nitrite generated during several nitroglycerin infusion experiments. Insufficient response was observed with either nitroglycerin topical application, or histamine injection and infusion to warrant further study of nitrite production under these conditions.
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http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=1540971
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