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Metabolites


Title:Carotta: Revealing Hidden Confounder Markers in Metabolic Breath Profiles
Author(s):Hauschild AC; Frisch T; Baumbach JI; Baumbach J;
Address:"Computational Systems Biology Group, Max Planck Institute for Informatics, Saarbrucken 66123, Germany. a.hauschild@mpi-inf.mpg.de. Computational Biology Group, Department of Mathematics and Computer Science, University of Southern Denmark, Odense 5230, Denmark. a.hauschild@mpi-inf.mpg.de. Computational Systems Biology Group, Max Planck Institute for Informatics, Saarbrucken 66123, Germany. tobias.frisch@fu-berlin.de. Department of Mathematics and Computer Science, Freie Universitat Berlin, Berlin 14195, Germany. tobias.frisch@fu-berlin.de. Faculty of Applied Chemistry, Reutlingen University, Reutlingen 72762, Germany. joerg.baumbach@reutlingen-university.de. Computational Biology Group, Department of Mathematics and Computer Science, University of Southern Denmark, Odense 5230, Denmark. jan.baumbach@imada.sdu.dk"
Journal Title:Metabolites
Year:2015
Volume:20150610
Issue:2
Page Number:344 - 363
DOI: 10.3390/metabo5020344
ISSN/ISBN:2218-1989 (Print) 2218-1989 (Electronic) 2218-1989 (Linking)
Abstract:"Computational breath analysis is a growing research area aiming at identifying volatile organic compounds (VOCs) in human breath to assist medical diagnostics of the next generation. While inexpensive and non-invasive bioanalytical technologies for metabolite detection in exhaled air and bacterial/fungal vapor exist and the first studies on the power of supervised machine learning methods for profiling of the resulting data were conducted, we lack methods to extract hidden data features emerging from confounding factors. Here, we present Carotta, a new cluster analysis framework dedicated to uncovering such hidden substructures by sophisticated unsupervised statistical learning methods. We study the power of transitivity clustering and hierarchical clustering to identify groups of VOCs with similar expression behavior over most patient breath samples and/or groups of patients with a similar VOC intensity pattern. This enables the discovery of dependencies between metabolites. On the one hand, this allows us to eliminate the effect of potential confounding factors hindering disease classification, such as smoking. On the other hand, we may also identify VOCs associated with disease subtypes or concomitant diseases. Carotta is an open source software with an intuitive graphical user interface promoting data handling, analysis and visualization. The back-end is designed to be modular, allowing for easy extensions with plugins in the future, such as new clustering methods and statistics. It does not require much prior knowledge or technical skills to operate. We demonstrate its power and applicability by means of one artificial dataset. We also apply Carotta exemplarily to a real-world example dataset on chronic obstructive pulmonary disease (COPD). While the artificial data are utilized as a proof of concept, we will demonstrate how Carotta finds candidate markers in our real dataset associated with confounders rather than the primary disease (COPD) and bronchial carcinoma (BC). Carotta is publicly available at http://carotta.compbio.sdu.dk [1]"
Keywords:breath analysis breathomics clustering multicapillary column/ion mobility spectrometry;
Notes:"PubMed-not-MEDLINEHauschild, Anne-Christin Frisch, Tobias Baumbach, Jorg Ingo Baumbach, Jan eng Switzerland 2015/06/13 Metabolites. 2015 Jun 10; 5(2):344-63. doi: 10.3390/metabo5020344"

 
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