Richard F. Reich scite author profile

Mass spectrometric imaging (MSI) is an analytical technique used to determine the distribution of individual analytes within a given sample. A wide array of analytes and samples can be investigated by MSI, including drug distribution in rats, lipid analysis from brain tissue, protein differentiation in tumors, and plant metabolite distributions. Matrix-assisted laser desorption/ionization (MALDI) is a soft ionization technique capable of desorbing and ionizing a large range of compounds, and it is the most common ionization source used in MSI. MALDI mass spectrometry (MS) is generally considered to be a qualitative analytical technique because of significant ion-signal variability. Consequently, MSI is also thought to be a qualitative technique because of the quantitative limitations of MALDI coupled with the homogeneity of tissue sections inherent in an MSI experiment. Thus, conclusions based on MS images are often limited by the inability to correlate ion signal increases with actual concentration increases. Here, we report a quantitative MSI method for the analysis of cocaine (COC) from brain tissue using a deuterated internal standard (COC-d(3)) combined with wide-isolation MS/MS for analysis of the tissue extracts with scan-by-scan COC-to-COC-d(3) normalization. This resulted in significant improvements in signal reproducibility and calibration curve linearity. Quantitative results from the MSI experiments were compared with quantitative results from liquid chromatography (LC)-MS/MS results from brain tissue extracts. Two different quantitative MSI techniques (standard addition and external calibration) produced quantitative results comparable to LC-MS/MS data. Tissue extracts were also analyzed by MALDI wide-isolation MS/MS, and quantitative results were nearly identical to those from LC-MS/MS. These results clearly demonstrate the necessity for an internal standard for quantitative MSI experiments.

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Quantitative MALDI-MSⁿanalysis of cocaine in the autopsied brain of a human cocaine user employing a wide isolation window and internal standards

Reich

Cudzilo

Levisky

et al. 2010

J. Am. Soc. Mass Spectrom.

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Detection of drugs in tissue typically requires extensive sample preparation in which the tissue is first homogenized, followed by drug extraction, before the extracts are finally analyzed by LC/MS. Directly analyzing drugs in intact tissue would eliminate any complications introduced by sample pretreatment. A matrix-assisted laser desorption/ionization tandem mass spectrometry (MALDI-MS n ) method as been developed for the quantification of cocaine present in postmortem brain tissue of a chronic human cocaine user. It is shown that tandem mass spectrometry (MS 2 and MS 3 increase selectivity, which is critical for differentiating analyte ions from background ions such as matrix clusters and endogenous compounds found in brain tissue. It is also shown that the use of internal standards corrects for signal variability during quantitative MALDI, which can be caused by inhomogeneous crystal formation, inconsistent sample preparation, and laser shot-to-shot variability. The MALDI-MS n method developed allows for a single MS 3 experiment that uses a wide isolation window to isolate both analyte and internal standard target ions. This method is shown to provide improved precision [ϳ10 -20 times reduction in percent relative standard deviation (%RSD)] for quantitative analysis compared to using two alternating MS 3 experiments that separately isolate the target analyte and internal standard ions. (J Am Soc Mass Spectrom 2010, 21, 564 -571)

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Impacts of Biodiesel on Pollutant Emissions of a JP-8–Fueled Turbine Engine

Corporan

Reich

Monroig

et al. 2005

Journal of the Air & Waste Management Association

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The impacts of biodiesel on gaseous and particulate matter (PM) emissions of a JP-8 -fueled T63 engine were investigated. Jet fuel was blended with the soybean oilderived methyl ester biofuel at various concentrations and combusted in the turbine engine. The engine was operated at three power settings, namely ground idle, cruise, and takeoff power, to study the impact of the biodiesel at significantly different pressure and temperature conditions. Particulate emissions were characterized by measuring the particle number density (PND; particulate concentration), the particle size distribution, and the total particulate mass. PM samples were collected for offline analysis to obtain information about the effect of the biodiesel on the polycyclic aromatic hydrocarbon (PAH) content. In addition, temperature-programmed oxidation was performed on the collected soot samples to obtain information about the carbonaceous content (elemental or organic). Major and minor gaseous emissions were quantified using a total hydrocarbon analyzer, an oxygen analyzer, and a Fourier Transform IR analyzer. Test results showed the potential of biodiesel to reduce soot emissions in the jet-fueled turbine engine without negatively impacting the engine performance. These reductions, however, were observed only at the higher power settings with relatively high concentrations of biodiesel. Specifically, reductions of ϳ15% in the PND were observed at cruise and takeoff conditions with 20% biodiesel in the jet fuel. At the idle condition, slight increases in PND were observed; however, evidence shows this increase to be the result of condensed uncombusted biodiesel. Most of the gaseous emissions were unaffected under all of the conditions. The biodiesel was observed to have minimal effect on the formation of polycyclic aromatic hydrocarbons during this study. In addition to the combustion results, discussion of the physical and chemical characteristics of the blended fuels obtained using standard American Society for Testing and Materials (ASTM) fuel specifications methods are presented.

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Particulate Matter and Polycyclic Aromatic Hydrocarbon Determination Using a Well-Stirred Reactor

Reich

Frayne

Zelina

et al. 2003

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Distribution Studies of Drugs and Metabolites in Tissue by Mass Spectrometric Imaging

Reich¹,

Magparangalan²,

Garrett³

et al. 2011

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Richard F. Reich

Quantitative MALDI Tandem Mass Spectrometric Imaging of Cocaine from Brain Tissue with a Deuterated Internal Standard

Quantitative MALDI-MSⁿanalysis of cocaine in the autopsied brain of a human cocaine user employing a wide isolation window and internal standards

Impacts of Biodiesel on Pollutant Emissions of a JP-8–Fueled Turbine Engine

Particulate Matter and Polycyclic Aromatic Hydrocarbon Determination Using a Well-Stirred Reactor

Distribution Studies of Drugs and Metabolites in Tissue by Mass Spectrometric Imaging

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Richard F. Reich

Quantitative MALDI Tandem Mass Spectrometric Imaging of Cocaine from Brain Tissue with a Deuterated Internal Standard

Quantitative MALDI-MSnanalysis of cocaine in the autopsied brain of a human cocaine user employing a wide isolation window and internal standards

Impacts of Biodiesel on Pollutant Emissions of a JP-8–Fueled Turbine Engine

Particulate Matter and Polycyclic Aromatic Hydrocarbon Determination Using a Well-Stirred Reactor

Distribution Studies of Drugs and Metabolites in Tissue by Mass Spectrometric Imaging

Contact Info

Product

Resources

About

Quantitative MALDI-MSⁿanalysis of cocaine in the autopsied brain of a human cocaine user employing a wide isolation window and internal standards