The Experts below are selected from a list of 62559 Experts worldwide ranked by ideXlab platform
George B Hanna - One of the best experts on this subject based on the ideXlab platform.
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
Sacheen Kumar - One of the best experts on this subject based on the ideXlab platform.
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
Juzheng Huang - One of the best experts on this subject based on the ideXlab platform.
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
David Smith - One of the best experts on this subject based on the ideXlab platform.
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
Patrik Spaněl - One of the best experts on this subject based on the ideXlab platform.
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...
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selected ion flow tube mass spectrometry analysis of exhaled breath for volatile organic compound profiling of esophago gastric cancer
Analytical Chemistry, 2013Co-Authors: Sacheen Kumar, Juzheng Huang, Nima Abbassighadi, Patrik Spaněl, David Smith, George B HannaAbstract:Exhaled breath analysis of volatile organic compounds (VOCs) has great potential in terms of disease diagnosis and measuring physiological response to treatment. In this study, selected ion flow tube mass spectrometry (SIFT-MS) has been applied for the quantification of VOCs in the exhaled breath from 3 groups of patients, viz., those with esophago-gastric cancer, noncancer diseases of the upper gastro-inTestinal tract, and a healthy upper gastroinTestinal tract cohort. A total of 17 VOCs have been investigated in this study. The concentrations of 4 VOCs, hexanoic acid, phenol, methyl phenol, and ethyl phenol, were found to be significantly different between cancer and positive control groups using the Mann–Whitney U Test. Receiver operating characteristics (ROC) analysis was applied for a combination of 4 VOCs (hexanoic acid, phenol, methyl phenol, and ethyl phenol) to discriminate the esophago-gastric cancer cohort from positive controls. The integrated area under the ROC curve (AUC) is 0.91. The result...