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71	Stability of Extemporaneously Prepared Lansoprazole Suspension at Two Temperatures Morrison, Jordan T., Lugo, Ralph A., Thigpen, Jim C., Brown, Stacy D. 01 January 2013 (has links) OBJECTIVE The purpose of this study was to examine the stability of a generic lansoprazole product in a 3 mg/mL sodium bicarbonate suspension under room temperature and refrigerated conditions. METHODS Lansoprazole suspensions (3 mg/mL) were prepared in triplicate using an 8.4% sodium bicarbonate vehicle for each storage condition (room temperature and refrigerated). During 1 month, samples from each replicate were periodically removed and analyzed for lansoprazole concentration by liquid chromatography–tandem mass spectrometry (LC-MS/MS). Each sample was spiked with 10 mg/L omeprazole to serve as the internal standard. A positive electrospray LC-MS/MS method was validated over the calibration range of 5 to 25 mg/L using Food and Drug Administration Guidance. The identities of the analyte and internal standard in the samples were verified by monitoring the MS/MS transitions of m/z 370 to m/z 252 and m/z 346 to m/z 198 for lansoprazole and omeprazole, respectively. Additionally, the pH of the suspensions was monitored throughout the study. RESULTS The stability of lansoprazole in the oral sodium bicarbonate suspension under refrigeration is compromised prior to what has been previously reported in the literature. Samples kept at room temperature lost >10% of the lansoprazole after 48 hours compared with the refrigerated samples, which maintained integrity up to 7 days. No statistically significant difference was found between the pH of the room temperature and refrigerated suspension samples, indicating that this factor is not the cause for the differences in stability at these two conditions. CONCLUSIONS This study suggests that the extemporaneously compounded lansoprazole oral suspension prepared in 8.4% sodium bicarbonate should not be stored in plastic oral syringes longer than 48 hours at room temperature and no longer than 7 days when refrigerated. These data indicate an expiration time earlier than that previously reported for the refrigerated product (14 days). Expiration function lansoprazole Omeprazole Sense of identity (observable entity) Sodium Bicarbonate Suspensions Tandem Mass Spectrometry Triplicate Pharmaceutical Sciences Chemicals and Drugs
72	Regulation of ceramide and its metabolites: biosynthesis and; in situ sphingolipid analysis Liu, Ying 19 January 2010 (has links) Sphingolipids are found in essentially all animals, plants and fungi, and some prokaryotic organisms and viruses. Sphingolipids function as structural components of membranes, lipoproteins, and as cell signaling modulators and mediators. To complicate matters further, sphingolipids often vary in type in different regions of tissues, and even in single cells, the subcellular localization of sphingolipids and their metabolic enzymes, transport proteins and targets may influence their functions. It is important to study sphingolipids spatial distribution within living organisms to understand how sphingolipids are involved in complex biochemical processes. As part of this thesis, procedures were optimized for the use of matrix assisted laser desorption/ionization (MALDI) tissue mass spectrometry (TIMS) to visualize the location of several types of lipids including sulfatides (ST), gangliosides and phosphoglycerolipids in brains from a mouse model for Tay-Sachs/Sandhoff disease. MALDI-TIMS was next applied to human ovarian carcinoma tissue to detect sulfatide location and established that ST are associated specifically with the regions of the ovarian tissue that bear the carcinoma. Electrospray ionization tandem mass spectrometry (ESI-MS-MS) was also used to confirm that ST and galactosylceramide (GalCer) are elevated in ovarian cancer. Gene expression data using tumor cells collected using laser capture microdissection revealed greater expression of mRNAs for GalCer synthase, GalCer sulfotransferase (Gal3ST1) and other enzymes of ST biosynthesis in epithelial ovarian carcinoma cells. This is a unique combination of two complementary, profiling technologies--mass spectrometry (metabolomic approach) with analysis of gene expression to study complex cancer pathology. The next study focused on the subcellular location of sphingolipids. In comparison with wild type Hek293 cells, a Hek293 cell line stably overexpressing serine palmitoyltransferase (SPT1/2 cells) was found to have elevated amounts of all subspecies of ceramide (Cer), but produces disproportionately higher amounts of C18-Cer and GalCer. Since Cer is known to inhibit protein ER/Golgi trafficking, these studies found that the higher production of Cer caused impairment of ER/Golgi trafficking of Ceramide synthase 1 (CerS1), thus increased C18-Cer. In addition, since GalCer is only synthesized in the lumen of the ER, this impairement of ER/Golgi trafficking also gave GalCer synthase access to its substrate and increased GalCer biosynthesis. These studies illustrate the complexity of sphingolipid biology and the usefulness of multiple tools to understand sphingolipid complex biological processes. Tissue imaging mass spectrometry Sulfatide Ceramide Electrospray tandem mass spectrometry Glucosylceramide Galactosylceramide Sphingolipids Ceramides Liquid chromatography Biosynthesis Chromatographic analysis
73	New Peptide-pair Screening Strategy and Peptidylglycine a-Hydroxylating Monooxygenase (PHM) Based Enrichment Method for the Discovery of Novel a-Amidated Peptides An, Zhenming 12 November 2010 (has links) Peptide a-amidation is known as a signature of bioactivity due to the fact that half of the bioactive peptides found in the nervous and endocrine systems are a-amidated and that most known a-amidated peptides are bioactive. a-Amidated peptides are produced by the oxidative cleavage of glycine-extended precursors. Peptidylglycine a-amidating monooxygenase (PAM) is the only known enzyme responsible for catalyzing this reaction and its sole physiological function is to convert glycine extended prohormones to their a-amidated forms. High levels of PAM are found in certain tissues with no corresponding level of amidated products suggesting the presence of undiscovered a-amidated peptide hormones. Liquid chromatography coupled tandem mass spectrometry (LC-MS/MS) has emerged as a powerful tool for peptide identification due to its advantages of speed, sensitivity and applicability to complex peptide mixtures. Normally, spectra are interpreted using database search engines. However, database searching is inefficient and ineffective for the identification of endogenous peptide with post-translational modifications (PTM) due to its low identification rate and high demand for computing power. There is a specific mass difference of 58.0055 units between an a-amidated peptide and its corresponding C-terminal glycine-extended precursor. The two peptides will have similar chromatographic retention time and MS/MS fragmentation patterns resulting from the identical amino acids sequences except for relatively the small differences at the C-termini. Based on this, a new LC-MS/MS based strategy for screening for a-amidated peptides was developed. This strategy depends on PAM inhibition and the mass accuracy of mass spectrometry (< 3 ppm). The coexistence of a-amidated peptides and their C-terminal glycine-extended precursors was insured by growing cells in the presence of a PAM inhibitor. After LC-MS/MS, masses and retention times of parent ions were extracted from raw data files and scanned by a script for peptide pairs with similar retention times and a mass difference around 58.0055. Resulting pairs were further validated by comparing their fragmentation patterns in MS/MS spectra. Only peptide pairs that met all three criteria were considered for further interpretation. This reduced the number of MS/MS spectra requiring interpretation by >99% and, thus, enable the manual inspection of MS/MS for the candidate peptide pairs. A total of 13 a-amidated peptides were successfully identified from cultured mouse pituitary AtT-20 cells using this method and a few of these newly identified a-amidated peptides exhibited bioactivity. The adaptability of this strategy to screening for other PTMs is also discussed. Peptidylglycine a-hydroxylating monooxygenase (PHM) is one of PAM domains which can be expressed separately. It is a copper dependent enzyme that catalyzes the first step of the two-step peptide amidation reaction. Removal of the copper ions results in the loss of enzyme catalytic activity. A PHM based a-amidated peptide enrichment method was developed. This method includes two steps. First, cells grown in culture were treated with a PAM inhibitor to effect the cellular accumulation of glycine-extended peptides. In the second step, copper-depleted PHM (apo-PHM) was used to selectively bind glycine-extended peptides present in the cell extract. All other unbound peptides were removed during wash runs. apo-PHM was then reinstated with copper to convert bound glycine-extended peptides to hydroxylated peptides and release them. Hydroxylated product can be converted to a-amidated peptide under basic conditions. Experiments carried out using model glycine extended peptides showed a 40 – 120-fold enrichment using HPLC-fluorometric assay or MALDI-TOF quantification. This method proved successful when working with complex samples like cell extracts. The relative intensity of a known a-amidated peptide mouse joining peptide (mJP) from an AtT-20 extract was dramatically increased after enrichment experiments. mouse joining peptide glycine-extended peptides tandem mass spectrometry proteomics American Studies Arts and Humanities
74	Proteomic profiling of pro and active matrix metalloproteinases using tandem mass spectrometry. optimization of affinity chromatography and nHPLC-MALDI-MS/MS for proteomic discrimination of matrix metalloproteinases in pre-clinical cancer model Saleem, Saira January 2012 (has links) Matrix metalloproteinases (MMPs) network with other biological molecules to maintain the extracellular matrix (ECM) in normal physiology and perform different roles. Understanding and assigning specific role to each of 24 members of these endoproteinases is impeded because of lack of specific and efficient detection methods in biological samples. Moreover, MMP-based anti-cancer drug development has also been challenged because, currently, there is no robust methodology to distinguish the inactive pro-enzymes, active enzymes or those complexed with endogenous inhibitors in biological specimens. The objective of this project is to develop a chemical proteomics strategy based on Matrix assisted laser desorption ionization tandem mass spectrometry (MALDI-MS/MS) to help identify and discriminate the various MMP forms. Firstly, a triazine dye-based ligand immobilized on chromatography beads was utilized to assess whether it binds to recombinant human MMPs (rhMMPs). The results highlighted that the ligand interacts with latent forms of MMPs in agreement with the literature. Secondly, the potential of the ligand was assessed using MALDI-MS/MS based methodology in in vitro cancer models. Cell line culture supernatants were used in amounts to emulate the availability of tumour biopsies in clinical settings. The MS/MS spectral peaks specific to MMPs (MMP-2 and MMP- 14), and two endogenous inhibitors TIMP-1 and TIMP-2 were found in affinity chromatography eluates of cell culture supernatants with higher Mascot scores for the latter. While western blot detected MMP-2 in cell extracts, MALDI-MS/MS did not detect MMPs because of amounts below the limit of detection (LOD) of the instrument. Although the ligand was found to be interacting with MMPs and detergent-free salt elution buffers improved MALDI analysis, recovery of MMPs from biological samples was sub-optimal. The dye ligand was observed to bind other enzymes and despite various strategies to reduce non-specific binding of proteins or enable selective elution did not improve MMP enrichment. Further work using methodology described in this study is required after scaling up the MMP amounts in biological specimen and to resolve the issue of non-specific binding of proteins to the ligand by understanding its structure. 616.99
75	Optimizing Managed Aquifer Recharge (MAR) Systems for Removal of Trace Organic Chemicals (TOrCs) Alidina, Mazahirali 06 1900 (has links) Managed aquifer recharge (MAR) is a low-energy subsurface water treatment system with the potential of being an important component of sustainable water reuse schemes. Alongside common wastewater contaminants, MAR systems have been shown to attenuate a range of trace organic chemicals (TOrCs). Despite several factors being possibly important for TOrC attenuation, many have not been investigated in depth. This research effort investigated three factors affecting attenuation of the moderately degradable TOrCs: primary substrate, adaptation of the microbial community to presence of TOrCs, and groundwater temperature. The overall goal was to optimize TOrC attenuation using different MAR configurations considering how these factors affect TOrC attenuation. The primary substrate composition and concentration significantly impacted attenuation of the moderately degradable TOrCs. Lower primary substrate concentrations and more refractory carbon generally resulted in better TOrC transformation, a more diverse microbial community in the infiltration zone and more diverse capabilities for TOrC degradation. The enzyme group cytochrome P450 may be important for TOrC transformation since its genes were more abundant under carbon-starving primary substrate conditions. Adaptation of the microbial community by pre-exposure to TOrCs was not required in order to degrade them. However, adaptation to the primary substrate was necessary for TOrC biotransformation due to its effect on the microbial community. Attenuation of most TOrCs was unaffected by changes in temperature. Some moderately degradable TOrCs, however, were better attenuated at higher temperatures likely due to increased microbial activity. Others were better degraded at lower temperatures likely due to favorable sorption conditions. In the context of applying MAR systems to potential water reuse schemes within Saudi Arabia, a reconnaissance study of TOrC occurrence in treated wastewater effluents was undertaken. Most of the TOrCs targeted were detected at similar concentrations to US effluents at comparable plants. One of the plants studied, however, displayed a significantly different TOrC footprint from the other treatment plants due to the large number of international visitors in its sewershed. Findings from this occurrence study as well from other tasks provided inputs to a risk assessment framework to compare the effectiveness of MAR systems as part of a multiple-barrier water reuse scheme. Managed Aquifer Recharge Trace Organic Chemicals Chemicals of Emerging Concern Water Reuse Soil Aquifer Treatment
76	Characterization of Self-Assembled Monolayers by Low Energy Reactive Ion Scattering: Influences of Terminal Group Composition and Structure on Ion-Surface Interaction Yang, Xi January 2006 (has links) Low energy (tens of eV) polyatomic cations were used as probes for characterization of monolayers of spontaneously chemisorbed thiols on gold. Characteristics including chemical composition, surface order and orientation of the self-assembled monolayers (SAMs) can be derived by monitoring the products of projectile ion neutralization, surface-induced dissociation (SID), and ion-surface reactions.To study the influence of the terminal group chemical structures and orientations of the SAMs on ion-surface interactions, a series of semi-fluorinated alkane thiols with difluoromethylenes buried underneath hydrocarbon terminal groups were examined (CH3CF2CH2− and CH3CH2CF2−). Compared to terminally fluorinated SAMs, they showed more projectile ion neutralization and less internal to vibrational energy deposition into precursor ions. Projectile ion-hydrocarbon reactions decreased significantly when difluoromethylenes are one or two bonds away from the terminal group. Furthermore, ion-surface reaction results on surfaces with odd and even chain lengths suggested that they have similar terminal methyl orientations to their hydrocarbon counterparts.Mixed monolayers of CF3CF2(CH2)14SH (F-SAMs) and CH3(CH2)15SH (H-SAMs) with systematically changing electron transfer, energy deposition and ion-surface reaction were prepared using mixed thiols solution and micro-contact printing (μ-CP). The solution mixture system showed linear variations in electron transfer and energy deposition with different F-SAM surface concentrations, while non-linear changes occur for ion-surface reaction suggesting strong lateral interactions between the two components. These interactions are minimized in the μ-CP system containing domains of each thiol. Energy deposition on the patterned surfaces varies non-linearly with changing F-SAM concentration which differs from the homogenously mixed system.To explore SID with a 90 collision angle, eV SID of a series of protonated peptide ions were performed in an in-line sector Time-Of-Flight (TOF) mass spectrometer. The results were compared to keV collision-induced dissociation (CID) data collected with the same instrument. Fragmentation efficiency for SID was higher than CID for those peptides. In addition to the excellent control over laboratory collision energies with SID, different amount of energy deposition can be achieved when varying surface composition, e.g. using mixed F-SAM/H-SAM.Reactive ion scattering spectrometry (RISS) results provided more in-depth knowledge of low energy ion-surface interactions that will promote usage of RISS as a novel surface characterization technique. self-assembled monolayers reactive ion scattering spectrometry tandem mass spectrometry surface-induced dissociation low energy ion-surface collision
77	Development of an enantioselective two-dimensional liquid chromatography-atmospheric pressure photoionization-tandem mass spectrometry method for the analysis of methylsulfonyl polychlorinated biphenyls in tissue extracts Cooper, Victoria Irene Unknown Date No description available. methylsulfonyl polychlorinated biphenyl PCB metabolite atmospheric pressure photoionization tandem mass spectrometry Greenland sledge dog
78	Development of an enantioselective two-dimensional liquid chromatography-atmospheric pressure photoionization-tandem mass spectrometry method for the analysis of methylsulfonyl polychlorinated biphenyls in tissue extracts Cooper, Victoria Irene 06 1900 (has links) An enantioselective heart-cut two-dimensional liquid chromatography-atmospheric pressure photoionization-tandem mass spectrometry method was developed for the analysis of 25 methylsulfonyl polychlorinated biphenyl metabolites in tissue extracts. Enantioseparation was achieved for 9 out of the 10 chiral analytes in less than 91 minutes, improving upon previous gas chromatography-based methods. Use of a pyrenyl-ethyl silica column in the first dimension enabled separation of all but two pairs of isobaric analytes. Limits of detection of 0.01 to 1.73 ng on-column were achieved. The precision and accuracy were within acceptable limits, but poor sensitivity was achieved for several meta-methylsulfonyl-substituted congeners. Despite this limitation, the method was successfully applied to the analysis of Greenland sledge dog (Canis familiaris) plasma and adipose tissue extracts. Concentration and enantiomer fraction data are presented. None of the target analytes were detected in Norwegian glaucous gull (Larus hyperboreus) plasma extracts. methylsulfonyl polychlorinated biphenyl PCB metabolite atmospheric pressure photoionization tandem mass spectrometry Greenland sledge dog
79	New Techniques for Sample Preparation in Analytical Chemistry : Microextraction in Packed Syringe (MEPS) and Methacrylate Based Monolithic Pipette Tips Altun, Zeki January 2008 (has links) Sample preparation is often a bottleneck in systems for chemical analysis. The aim of this work was to investigate and develop new techniques to address some of the shortcomings of current sample preparation methods. The goal has been to provide full automation, on-line coupling to detection systems, short sample preparation times and high-throughput. In this work a new technique for sample preparation that can be connected on-line to liquid chromatography (LC) and gas chromatography (GC) has been developed. Microextraction in packed syringe (MEPS) is a new solid-phase extraction (SPE) technique that is miniaturized and can be fully automated. In MEPS approximately 1 mg of sorbent material is inserted into a gas tight syringe (100-250 μL) as a plug. Sample preparation takes place on the packed bed. Evaluation of the technique was done by the determination of local anaesthetics in human plasma samples using MEPS on-line with LC and tandem mass spectrometry (MS-MS). MEPS connected to an autosampler was fully automated and clean-up of the samples took about one minute. In addition, in the case of plasma samples the same plug of sorbent could be used for about 100 extractions before it was discarded. A further aim of this work was to increase sample preparation throughput. To do that disposable pipette tips were packed with a plug of porous polymer monoliths as sample adsorbent and were then used in connection with 96-well plates and LC-MS-MS. The evaluation of the methods was done by the analysis of local anaesthetics lidocaine and ropivacaine, and anti-cancer drug roscovitine in plasma samples. When roscovitine and lidocaine in human plasma and water samples were used as model substances, a 96-plate was handled in about two minutes. Further, disposable pipette tips may be produced at low cost and because they are used only once, carry-over is eliminated. Local Anaesthetics Microextraction in Packed Syringe Monoliths Pipette Tips Sample Preparation Analytical chemistry Analytisk kemi
80	Application of mass spectrometry in enzyme deficiency assay for newborn screening purpose / Wang, Ding, January 2006 (has links) Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 137-143).

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