Breath Gas Markers in Depression and Their Relationship with Brain Metabolism
D. Keskin Gokcelli, J. Itzhacki Sitton, J. Kesik, D. H. Henning, E. Farrher, N. J. Shah, T. Frodl

TL;DR
This study explores breath gas markers in depression and their connection to brain metabolism, aiming to find non-invasive diagnostic tools.
Contribution
The study proposes breath volatile organic compounds as non-invasive markers for depression severity and brain metabolism.
Findings
Breath VOC concentrations may distinguish unmedicated depressed patients from healthy individuals.
VOC levels correlate with depression and anxiety severity as well as brain glutamatergic metabolism.
Abstract
Dysfunctional changes in the glutamatergic system play an important role in the pathophysiology of depression. Glutamate regulates various neuronal function, such as nerve migration, excitability, plasticity, as well as long-term potentiation and long-term synaptic depression. Failures in this process might cause emotional/cognitive changes associated with stress-induced depressive symptoms, a part of our current understanding of the pathophysiology of depression. These changes might be related to deviations in biochemical blood parameters, but also to volatile organic compounds (VOCs) measured in breath. 1) To replicate our previous finding that concentration of volatile organic compounds in expiratory breath gas and metabolites derived from MR spectroscopy distinguish unmedicated depressed patients from healthy participants, (2) to determine whether the amount of these VOCs is…
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Taxonomy
TopicsDiet and metabolism studies · Advanced Chemical Sensor Technologies
