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Characterization and optimization of a high surface area-solid phase microextraction sampler for the collection of trace level volatile organic compounds in the field /McDonald, Shannon Scott January 2006 (has links) (PDF)
Thesis (M.S.P.H.)--Uniformed Services University of the Health Sciences, 2006 / Typescript (photocopy)
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Comparison of volatile organic compound profiles of various sources of decompositionLavigne, Skye Elizabeth-Hinkley 25 October 2018 (has links)
The ability to locate human remains, specifically in a forensic setting, is crucial to investigations. Research in the past two decades has identified volatile organic compounds (VOCs) as the source of the decomposition odor. The study examined the headspace (area directly above) of decomposing remains, Sigma-Aldrich (St. Louis, MO) Pseudo Corpse Scents (formulations one and two), cadaveric blood, and decompositional fluid for target VOCs to which human remains detection (HRD) dogs could indicate. These samples were tested using solid-phase microextraction (SPME) and a gas chromatograph-mass spectrometer (GC/MS) for the exact odor profile and compared to literature about VOCs present in decomposition. The author hypothesized that a series of seven target chemical compounds (carbon disulfide, hexanal, nonanal, dimethyl sulfide, dimethyl disulfide, styrene, and benzoic acid methyl ester) would be present when the headspace of all samples tested. Ideally, a synthetic compound that will better mimic human decomposition odor profile can be created to aid in the training of HRD dogs. There are some disadvantages to using dogs in the field, and the lack of standardization when training HRD dogs is a major one. By examining VOC profiles of different sources of decomposition, a core set of VOCs of human decomposition may be identified to aid in the standardization of training. Of the eight target compounds chosen from the literature, only two were found in any samples tested for this experiment, hexanal and nonanal found in pig heart, deer liver, as well as human muscle and epidermis. Acetic acid was identified in every sample with the exception of the control. Also, in accordance with the literature, putrescine and cadaverine were not found in any of the samples.
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Comprehensive Analysis of Volatile Biomarkers for Female FertilityJanuary 2018 (has links)
abstract: One out of ten women has a difficult time getting or staying pregnant in the United States. Recent studies have identified aging as one of the key factors attributed to a decline in female reproductive health. Existing fertility diagnostic methods do not allow for the non-invasive monitoring of hormone levels across time. In recent years, olfactory sensing has emerged as a promising diagnostic tool for its potential for real-time, non-invasive monitoring. This technology has been proven promising in the areas of oncology, diabetes, and neurological disorders. Little work, however, has addressed the use of olfactory sensing with respect to female fertility. In this work, we perform a study on ten healthy female subjects to determine the volatile signature in biological samples across 28 days, correlating to fertility hormones. Volatile organic compounds (VOCs) present in the air above the biological sample, or headspace, were collected by solid phase microextraction (SPME), using a 50/30 µm divinylbenzene/carboxen/polydimethylsiloxane (DVB/CAR/PDMS) coated fiber. Samples were analyzed, using comprehensive two-dimensional gas chromatography-time-of-flight mass spectrometry (GC×GC-TOFMS). A regression model was used to identify key analytes, corresponding to the fertility hormones estrogen and progesterone. Results indicate shifts in volatile signatures in biological samples across the 28 days, relevant to hormonal changes. Further work includes evaluating metabolic changes in volatile hormone expression as an early indicator of declining fertility, so women may one day be able to monitor their reproductive health in real-time as they age. / Dissertation/Thesis / Masters Thesis Biomedical Engineering 2018
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Dysregulation of tryptophan metabolism in a sub-Saharan HIV/AIDS populationBipath, Priyesh January 2015 (has links)
The essential amino acid tryptophan is an important substrate for the synthesis of
serotonin, melatonin, tryptamine, proteins and the kynurenines. The aim of this study was
to investigate tryptophan metabolism along the kynurenine pathway in a low income sub-
Saharan HIV/AIDS patient population from the Gauteng Province of South Africa.
The first objective was to develop and validate a novel gas chromatography mass
spectrometry method to enable reliable quantification of tryptophan and metabolites of the
kynurenine pathway in plasma. Validation parameters for the detection of tryptophan,
kynurenine, quinolinic acid and nicotinamide conformed to international criteria for newly
developed methods. The next objective of the study was to find an appropriate biomarker
against which to express the results. Several substances previously described as indicators
were assessed and compared, including plasma neopterin, procalcitonin, C-reactive protein,
the cytokines IL-2, IL-4, IL-6, IL-10, TNF, and IFN-gamma, as well as factors routinely
measured and elsewhere described as biomarkers in HIV, i.e., albumin, the albumin/globulin
ratio, haemoglobin and red cell distribution width. Neopterin was shown to be superior as
indicator of pro-inflammatory status, as indicator of the degree of immune deficiency, to
predict disease progression, to distinguish between patients with and without tuberculosis
co-infection and to reflect the success of highly active antiretroviral treatment (HAART).
In the analyses of the kynurenine pathway metabolites, tryptophan levels were seen to be
significantly lower (24.36 ± 4.14 vs. 43.57 ± 11.85 μmol/l; p<0.0001), while the activity of the
enzyme, indoleamine 2,3 dioxygenase (IDO), (K/T:136.03 vs. 52.18; p<0.001), as well as
kynurenine (3.21 ± 1.33 vs. 2.14 ± 0.45 μmol/l; p<0.001) and quinolinic acid (4.46 ± 2.32 vs.
0.25 ± 0.058 μmol/l; p<0.001) levels were significantly higher in the total patient group
(n=105) than in the control group (n=60). Patients on HAART showed not only significantly higher CD4 counts (296.21 ± 195.50 vs. 170.05 ± 167.26 cells/μl; p=0.003), but also lower
inflammatory activity (neopterin: 35.51 ± 35.70 vs. 66.63 ± 40.73 nmol/l; p<0.001 and IL-6:
9.56 ± 12.54 vs. 15.04 ± 19.34 pg/ml; p<0.05), lower IFN-γ (41.43 ± 14.14 vs. 53.68±34.39
pg/ml; p<0.05), higher tryptophan levels (25.13 ± 3.80 vs. 22.04 ± 4.32 μmol/l; p=0.033),
lower kynurenine levels (3.08 ± 1.28 vs. 3.58 ± 1.42 μmol/l; p=0.144) and lower quinolinic
acid levels (4.03 ± 2.04 vs. 5.77 ± 2.65μmol/l; p=0.072) than patients not on HAART.
Tryptophan depletion and IDO activity, as well as the levels of kynurenine and quinolinic
acid, were generally greater than in populations from developed countries. Indications are
that this can be ascribed to higher levels of inflammatory activity at comparable levels of
immune deficiency in the disadvantaged population of this study. The degree of tryptophan
depletion and quinolinic acid accumulation found could negatively impact on the physical
and neuropsychiatric wellness of the population. Correlations between quinolinic acid, and
nicotinamide levels showed a significant contribution of kynurenine pathway metabolism to
the plasma levels of nicotinamide. This de novo synthesis of nicotinamide could offer
protection against niacin deficiency and NAD depletion in populations with inadequate
dietary intake. This is the first study to assess plasma tryptophan, kynurenine, quinolinic
acid and nicotinamide levels, as well as IDO activity, pro-inflammatory status and IFN-γ
levels, simultaneously in one population and to compare it to that of HIV/AIDS patients in
developed countries. / Thesis (PhD)--University of Pretoria, 2015. / tm2015 / Physiology / PhD / Unrestricted
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Improved Dynamic Headspace Sampling and Detection using Capillary Microextraction of Volatiles Coupled to Gas Chromatography Mass SpectrometryFan, Wen 14 November 2013 (has links)
Sampling and preconcentration techniques play a critical role in headspace analysis in analytical chemistry. My dissertation presents a novel sampling design, capillary microextraction of volatiles (CMV), that improves the preconcentration of volatiles and semivolatiles in a headspace with high throughput, near quantitative analysis, high recovery and unambiguous identification of compounds when coupled to mass spectrometry. The CMV devices use sol-gel polydimethylsiloxane (PDMS) coated microglass fibers as the sampling/preconcentration sorbent when these fibers are stacked into open-ended capillary tubes. The design allows for dynamic headspace sampling by connecting the device to a hand-held vacuum pump. The inexpensive device can be fitted into a thermal desorption probe for thermal desorption of the extracted volatile compounds into a gas chromatography-mass spectrometer (GC-MS). The performance of the CMV devices was compared with two other existing preconcentration techniques, solid phase microextraction (SPME) and planar solid phase microextraction (PSPME). Compared to SPME fibers, the CMV devices have an improved surface area and phase volume of 5000 times and 80 times, respectively. One (1) minute dynamic CMV air sampling resulted in similar performance as a 30 min static extraction using a SPME fiber. The PSPME devices have been fashioned to easily interface with ion mobility spectrometers (IMS) for explosives or drugs detection. The CMV devices are shown to offer dynamic sampling and can now be coupled to COTS GC-MS instruments. Several compound classes representing explosives have been analyzed with minimum breakthrough even after a 60 min. sampling time. The extracted volatile compounds were retained in the CMV devices when preserved in aluminum foils after sampling. Finally, the CMV sampling device were used for several different headspace profiling applications which involved sampling a shipping facility, six illicit drugs, seven military explosives and eighteen different bacteria strains. Successful detection of the target analytes at ng levels of the target signature volatile compounds in these applications suggests that the CMV devices can provide high throughput qualitative and quantitative analysis with high recovery and unambiguous identification of analytes.
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Urinary Volatile Organic Compounds for Detection of Breast Cancer and Monitoring Chemical and Mechanical Cancer Treatments in MiceMEGHANA SHARAD TELI (6640691) 12 October 2021 (has links)
<p>The aim
of this study is to identify metabolic transformations in breast cancer through
urinary volatile organic compounds in mammary pad or bone tumor mice models.
Subsequently, it focuses on investigating the efficacy of therapeutic intervention
through identified potential biomarkers. Methods for monitoring tumor development
and treatment responses have technologically advanced over the years leading to
significant increase in percent survival rates. Although these modalities are
reliable, it would be beneficial to observe disease progression from a new perspective
to gain greater understanding of cancer pathogenesis. Analysis of cellular energetics
affected by cancer using bio-fluids can non-invasively help in prognosis and
selection of treatment regimens. The hypothesis is altered profiles of urinary volatile
metabolites is directly related to disrupted metabolic pathways. Additionally,
effectiveness of treatments can be indicated through changes in concentration
of metabolites. In this ancillary experiment, mouse urine specimens were
analyzed using gas chromatography-mass spectrometry, an analytical chemistry
tool in identifying volatile organic compounds. Female BALB/c mice were
injected with 4T1.2 murine breast tumor cells in the mammary fat pad.
Consecutively, 4T1.2 cells were injected in the right iliac artery of BALB/c
mice and E0771 tumor cells injected in the tibia of C57BL/6 mice to model bone
tumor. The effect of two different modes of treatment: chemical drug and
mechanical stimulation was investigated through changes in compound profiles.
Chemical drug therapy was conducted with dopamine agents, Triuoperazine,
Fluphenazine and a statin, Pitavastatin. Mechanical stimulation included tibia
and knee loading at the site of tumor cell injection were given to mice. A biological
treatment mode included administration of A5 osteocyte cell line. A set of
potential volatile organic compounds biomarkers differentiating mammary pad or
bone confined tumors from healthy controls was identified using forward feature
selection. Effect of treatments was demonstrated through hierarchical heat maps
and multivariate data analysis. Compounds identified in series of experiments
belonged to the class of terpenoids, precursors of cholesterol molecules. Terpene
synthesis is a descending step of mevalonate pathway suggesting its potential
role in cancer pathogenesis. This thesis demonstrates the ability of urine
volatilomics to indicate signaling pathways inflicted in tumors. It proposes a
concept of using urine to detect tumor developments at two distinct locations
as well as to monitor treatment efficacy.</p><br>
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Critical Comparison of Total Vaporization-Solid Phase Microextraction vs Headspace-Solid Phase MicroextractionAlexandra Michelle Train (10873377) 05 August 2021 (has links)
<p>Solid Phase Microextraction (SPME) is a popular sampling technique that can be paired with Gas Chromatography/Mass Spectrometry (GC-MS). SPME-GC-MS is used in forensic chemistry due to its simplification of the sample preparation process. Headspace-Solid Phase Microextraction (HS-SPME) is a technique where the sample is heated to generate volatiles in the headspace of the vial. A SPME fiber is then inserted into the vial and the compounds in the headspace will bind to the fiber. Total Vaporization- Solid Phase Microextraction (TV-SPME) is a technique that is derived from the HS-SPME technique. </p><p>In Chapter 1, the critical comparison of HS-SPME and TV-SPME is discussed. Samples including marijuana, essential oils, and CBD oil were utilized to compare the two techniques. The compounds of interest in marijuana are the three main cannabinoids: cannabinol (CBN), cannabidiol (CBD), and tetrahydrocannabinol (THC). The sample preparation and GC-MS parameters were kept the same for all samples to determine which SPME technique works best for these sample types and yielded the greatest sensitivity. It was found that HS-SPME shows greater sensitivity with CBN and equivalent sensitivity with essential oils, THC and CBD. </p><p>In Chapter 2, the detection of synthetic cannabinoids utilizing liquid-liquid injection as well as HS-SPME and TV-SPME is discussed. The detection of these compounds is important because this type of drug has become more prevalent in the United States because they can be chemically altered slightly so they still have the effects of a drug but can evade drug legislation. The detection of synthetic cannabinoids using liquid injection was found to be successful but detection using HS-SPME and TV-SPME was found to be unsuccessful. </p>In Chapter 3, the analyses of real and artificial saliva utilizing HS-SPME and TV-SPME is discussed. Determining the compounds present in real saliva and artificial saliva will be of importance for future research into determining if the presence of drugs in saliva can be analyzed with these techniques. The analyses of real and artificial saliva were found to be successful using HS-SPME, without derivatization, and TV-SPME, with and without derivatization. Many of the compounds present in the real saliva were detected and were confirmed to be compounds regularly found in saliva by other scientific literature.
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Critical Comparison of Total Vaporization- Solid Phase Microextraction vs Headspace- Solid Phase MicroextractionTrain, Alexandra 05 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Solid Phase Microextraction (SPME) is a popular sampling technique that can be paired with Gas Chromatography/Mass Spectrometry (GC-MS). SPME-GC-MS is used in forensic chemistry due to its simplification of the sample preparation process. Headspace-Solid Phase Microextraction (HS-SPME) is a technique where the sample is heated to generate volatiles in the headspace of the vial. A SPME fiber is then inserted into the vial and the compounds in the headspace will bind to the fiber. Total Vaporization- Solid Phase Microextraction (TV-SPME) is a technique that is derived from the HS-SPME technique.
In Chapter 1, the critical comparison of HS-SPME and TV-SPME is discussed. Samples including marijuana, essential oils, and CBD oil were utilized to compare the two techniques. The compounds of interest in marijuana are the three main cannabinoids: cannabinol (CBN), cannabidiol (CBD), and tetrahydrocannabinol (THC). The sample preparation and GC-MS parameters were kept the same for all samples to determine which SPME technique works best for these sample types and yielded the greatest sensitivity. It was found that HS-SPME shows greater sensitivity with CBN and equivalent sensitivity with essential oils, THC and CBD.
In Chapter 2, the detection of synthetic cannabinoids utilizing liquid-liquid injection as well as HS-SPME and TV-SPME is discussed. The detection of these compounds is important because this type of drug has become more prevalent in the United States because they can be chemically altered slightly so they still have the effects of a drug but can evade drug legislation. The detection of synthetic cannabinoids using liquid injection was found to be successful but detection using HS-SPME and TV-SPME was found to be unsuccessful.
In Chapter 3, the analyses of real and artificial saliva utilizing HS-SPME and TV-SPME is discussed. Determining the compounds present in real saliva and artificial saliva will be of importance for future research into determining if the presence of drugs in saliva can be analyzed with these techniques. The analyses of real and artificial saliva were found to be successful using HS-SPME, without derivatization, and TV-SPME, with and without derivatization. Many of the compounds present in the real saliva were detected and were confirmed to be compounds regularly found in saliva by other scientific literature.
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Healing Practices and Ritual Feasts Among the Nabateans: A Study of Absorbed Residues From Ceramics on the Ad-Deir PlateauHubbert, Jake 24 April 2023 (has links) (PDF)
Eastern Cistern B on the Ad-Deir Plateau is unusual in its breadth and variety of ceramic vessels represented by thousands of sherds. These sherds raised significant questions about the purpose and use of the vessels that they originally came from. This thesis argues that the ceramic vessels that were deposited in Eastern Cistern B represent the deposited remains of an ancient Nabataean ritual feast. Furthermore, this thesis also helps to answer the questions surrounding what the ceramic containers once held and their relationship to that ritual meal. This thesis identified residues absorbed within the ceramic fragments through the use of a gas chromatographer-mass spectrometer analysis. The data demonstrated that the vessels once contained remains of medicinal plants, such as crocus, oleander, and others as well as post deposition contaminants throughout the majority of the samples. Those contaminations and other limitations mentioned in this thesis may provide a basis for future investigations for absorbed residue analysis in Petra, Jordan. In turn, the relationship between the medicinal plants and the feast at Eastern Cistern B suggests that a healing ritual possibly accompanied a meal suggesting archaeologists begin examining this and other associated events that accompanied ritual feasts in and among the Nabataeans and in the ancient Near East more broadly.
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Method Development for the Synthesis of Anaerobic Digester Biogas with the Laboratory EnvironmentFreitas, Andrew Daniel Sanchez 12 February 2015 (has links)
Biogas, a gaseous mixture produced during decomposition of organic matter, is a renewable, easily generated and common byproduct of anaerobic digestion at wastewater treatment plants (WWTP), landfills and agricultural operations. There is growing interest in researching and utilizing the energy potential associated with its combustion. Siloxanes, a family of volatile organic silicon compounds, pose large impediments to biogas usage due to the formation and precipitation of silicon dioxide within combustion devices. Removal of siloxanes prior to combustion is therefore a growing endeavor. Research was performed to synthesize a representative gas stream produced from anaerobic digesters within WWTP. Methane, carbon dioxide and hydrogen sulfide were combined with humidity and gaseous siloxane in levels characteristically seen exiting anaerobic digesters. A methanol impinger train was utilized to sample the biogas composite. Gas chromatography-mass spectrometry (GC-MS) was used to determine gas-phase siloxane concentrations in the gas stream effluent for the purposes of confirming the generation of a consistent and reproducible biogas stream. / Master of Science
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