2016
DOI: 10.1089/ars.2015.6415
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Imaging Reactive Oxygen Species-Induced Modifications in Living Systems

Abstract: Significance: Reactive Oxygen Species (ROS) may regulate signaling, ion channels, transcription factors, and biosynthetic processes. ROS-related diseases can be due to either a shortage or an excess of ROS. Recent Advances: Since the biological activity of ROS depends on not only concentration but also spatiotemporal distribution, real-time imaging of ROS, possibly in vivo, has become a need for scientists, with potential for clinical translation. New imaging techniques as well as new contrast agents in clinic… Show more

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Cited by 45 publications
(45 citation statements)
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References 152 publications
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“…It has also been reported that two α‐Toc• form poorly reactive non‐radical dimers (Fig. (15)) . The lipid peroxidation reaction introduced above can be expressed as a rate constant ( k ) using a two‐compartment kinetic model equation (Fig.…”
Section: Introductionmentioning
confidence: 95%
“…It has also been reported that two α‐Toc• form poorly reactive non‐radical dimers (Fig. (15)) . The lipid peroxidation reaction introduced above can be expressed as a rate constant ( k ) using a two‐compartment kinetic model equation (Fig.…”
Section: Introductionmentioning
confidence: 95%
“…Since only the radical form is characterized by EPR/MRI contrast, this could be used as a quantitative marker for the as-sessment of the redox status in biological objects in vitro and in vivo (91). Many excellent review articles have described this possibility (92,(95)(96)(97)(98).…”
Section: Nitroxides As Redox Sensors For Detection Of Mitochondrial Dmentioning
confidence: 99%
“…much more sensitive electrochemical detection of the DHE products) or new DHE analogs allowing sitespecific detection of superoxide (e.g. mito-SOX for mitochondrial superoxide and hydropropidine for extracellular superoxide) or the most advanced new spin traps providing higher stability in biological samples and thereby allow the EPR-based detection of superoxide and/ or peroxynitrite-derived free radicals in cells and tissues (some candidates might be found in [32,[135][136][137]). High performance liquid chromatography (HPLC)-based detection of superoxide formation in the extracellular space, cytosol and mitochondria can be established by hydropropidine, a positively-charged water-soluble analogue of dihydroethidium (DHE) for extracellular superoxide formation [138], DHE for cytosolic superoxide formation and mitoSOX, a mitochondria-targeted DHE analogue for mitochondrial superoxide formation (Fig.…”
Section: No the Reaction Ofmentioning
confidence: 99%
“…Combined with the respective spin trap, these techniques have the potential for the specific detection of vascular ROS and RNS formation in isolated tissues and whole animals [135,154]. Also combination of different techniques such as immuno-spin trapping as reported for trapping of thiyl radical in proteins or other radicals in DNA by DMPO and formation of stable spin-adducts with subsequent Western blotting against DMPO-bound proteins or DNA molecules are already used for the detection of ROS and RNS formation, or more precisely their footprints in biological samples [155].…”
Section: No the Reaction Ofmentioning
confidence: 99%
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