Difference between revisions of "CA spring 2016"
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== Proposed Project Summary == | == Proposed Project Summary == | ||
'''Identification of Acetaminophen Free Radical Formation Products''' | '''Identification of Acetaminophen Free Radical Formation Products''' | ||
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== Update on Research work == | == Update on Research work == | ||
+ | '''March 16th, 2016''' | ||
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+ | Read through the Griffin system software manual for information on the column | ||
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+ | '''March 15th, 2016''' | ||
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+ | Updated GC-MS instrumentation page with information on the Griffin system. | ||
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'''February 27th, 2016''' | '''February 27th, 2016''' | ||
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containing hydrocarbons, fatty acidmethyl esters (FAMEs), acids, bases and alcohols. Below is a URL for more information on Grob GC Test mixture. | containing hydrocarbons, fatty acidmethyl esters (FAMEs), acids, bases and alcohols. Below is a URL for more information on Grob GC Test mixture. | ||
− | http://www.flir.com/uploadedFiles/flirGS/Threat_Detection/Chemical_Detection/Mass_Spectrometry/Products/Griffin/Griffin_824/grob%20gc%20test%20mixture_6.pdf | + | GC Chromatograph of Grob[http://esr.monmsci.net/wiki/index.php/File:TIC_GC_chromatograph_of_Grob.png#filelinks] |
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+ | [http://www.flir.com/uploadedFiles/flirGS/Threat_Detection/Chemical_Detection/Mass_Spectrometry/Products/Griffin/Griffin_824/grob%20gc%20test%20mixture_6.pdf GROB info] | ||
'''February 10th, 24th 2016''' | '''February 10th, 24th 2016''' |
Latest revision as of 21:49, 16 March 2016
Proposed Project Summary
Identification of Acetaminophen Free Radical Formation Products
The primary goal of this project is to identify acetaminophen free radical formation products using GC-MS. The commonly used pain killer APAP is very toxic when ingested in high doses and can result in kidney and liver damage. Cytochrome P-450 is found to be one of the two enzymes that catalyze the oxidation of APAP leading to the formation of toxic metabolites and covalent modification of proteins. This project aims to analyze these metabolites. Samples are to be prepared by acetylation of APAP polymers.
Update on Research work
March 16th, 2016
Read through the Griffin system software manual for information on the column
March 15th, 2016
Updated GC-MS instrumentation page with information on the Griffin system.
February 27th, 2016
We verified the working of the chromatographic system and separation capabilities over a range of temperatures by running the Grob Mixture containing hydrocarbons, fatty acidmethyl esters (FAMEs), acids, bases and alcohols. Below is a URL for more information on Grob GC Test mixture.
GC Chromatograph of Grob[1]
February 10th, 24th 2016
In order to get a working solution, several dilutions of stock unacetylated acetaminophen were made in methanol within the concentration ranges of 75-400μg/mL as suggested in the paper. Injections of different concentration(100μg/mL, 200μg/mL, 400μg/mL) resulted in no peak detection after 2 runs were conducted for each. Some of the data were saved even though there was no peaks observed. To further the overall research work until a working solution is developed, progress has been made in finding and reading journal articles for writing the abstract and introduction of the paper on this project.
January 2016
GC-MS instrumentation experimental procedure found in a paper on determination of acetaminophen using GC-MS was followed. The GC was programmed at an initial temperature of 70°C for 1min, ramped up to 250°C at a rate of 30°C/min followed by a hold at 250°C for 20 min in splitless mode. The sample was made by acetylation of acetaminophen by adding drops of acetic anhydride and 3μL of pyridine. 1μL of acetylated acetaminophen in methanol was injected, and there was no peak detection at all for 3 runs.