2018
DOI: 10.3390/ijms19092634
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Serum and Hepatic Autofluorescence as a Real-Time Diagnostic Tool for Early Cholestasis Assessment

Abstract: While it is well established that various factors can impair the production and flow of bile and lead to cholestatic disease in hepatic and extrahepatic sites, an enhanced assessment of the biomarkers of the underlying pathophysiological mechanisms is still needed to improve early diagnosis and therapeutic strategies. Hence, we investigated fluorescing endogenous biomolecules as possible intrinsic biomarkers of molecular and cellular changes in cholestasis. Spectroscopic autofluorescence (AF) analysis was perf… Show more

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Cited by 6 publications
(3 citation statements)
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“…These insights derive from the central role of liver in providing for the storage, mobilization and systemic homeostasis of these biomolecules, and the consequent biological effects. These may depend on the balance between the possible antioxidant or toxic effects of vitamin A, and on the involvement of arachidonic and other fatty acid derivatives, namely the eicosanoids prostanoids, lipoxins, leukotrienes and the n-HETE series of hydroxyeicosatetraenoic, in sensing the regulation of protective or damaging, anti-or pro-inflammatory, pathways following hazardous stimuli such as oxidative stress [47,343].…”
Section: Normal and Altered Cell And Tissuesmentioning
confidence: 99%
“…These insights derive from the central role of liver in providing for the storage, mobilization and systemic homeostasis of these biomolecules, and the consequent biological effects. These may depend on the balance between the possible antioxidant or toxic effects of vitamin A, and on the involvement of arachidonic and other fatty acid derivatives, namely the eicosanoids prostanoids, lipoxins, leukotrienes and the n-HETE series of hydroxyeicosatetraenoic, in sensing the regulation of protective or damaging, anti-or pro-inflammatory, pathways following hazardous stimuli such as oxidative stress [47,343].…”
Section: Normal and Altered Cell And Tissuesmentioning
confidence: 99%
“…In the future, technical advancements will allow high-resolution AF detection, the specific excitation of fluorophores, and detection of emitted light within narrow wavelength ranges. In addition, experimental studies also already found that metabolic processes can be tracked by changing AF characteristics, caused, for example, by changing fluorescence spectra of NAD(P)H in its bound or free form or redox state [171]. A summary of the experimental advancements and first translational results on AF-based metabolic imaging was recently presented by Croce et al [172].…”
Section: Future Directionsmentioning
confidence: 99%
“…Using real-time spectroscopic autofluorescence analysis of serum and liver tissue in experimental cholestasis (rats undergoing bile duct ligation), Croce and colleagues observed distinctive changes in some endogenous fluorophores. In serum, they found a significant increase in porphyrin derivatives, indicating perturbation of the heme metabolism, while in liver tissue, they described dramatic changes in the content of NAD(P)H, flavins, and lipofuscin-like lipopigments, reflecting mitochondrial dysfunction, oxidative stress, and accumulation of oxidized species [18]. Altogether, these molecular alterations may be regarded as chemical footprints of the initial events occurring in cholestasis, possibly to take advantage of for early diagnosis.…”
Section: Cell Interactions Provide Tools For the Early Detection Omentioning
confidence: 99%