Lefèbvre Pj scite author profile

This paper will focus on understanding the role and action of reactive oxygen species (ROS) and reactive nitrogen species (RNS) in the molecular and biochemical pathways responsible for the regulation of the survival of hair cells and spiral ganglion neurons in the auditory portion of the inner ear. The pivotal role of ROS/RNS in ototoxicity makes them potentially valuable candidates for effective otoprotective strategies. In this review, we describe the major characteristics of ROS/RNS and the different oxidative processes observed during ototoxic cascades. At each step, we discuss their potential as therapeutic targets because an increasing number of compounds that modulate ROS/RNS processing or targets are being identified.

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Fate of exogenous glucose during exercise of different intensities in humans

Pirnay¹,

Crielaard²,

Pallikarakis³

et al. 1982

Journal of Applied Physiology

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The extent to which an oral load of glucose is absorbed from the gut and oxidized during prolonged exercise is a matter of controversy. Four healthy volunteers, 18-28 yr, were submitted on 4 different days to a 105-min treadmill exercise at 22, 39, 51, and 64% of their individual VO2max. After 15 min adaptation to exercise, they received orally 100 g naturally labeled [13C]glucose. Oxidation of the exogenous glucose was followed by 13CO2 measurements in the expired air; total carbohydrate and lipid oxidation were evaluated by indirect calorimetry. Between 22 and 51% VO2 max, total carbohydrate, lipid oxidation, and exogenous glucose oxidation were linearly correlated with the relative work load (r = 0.81; P less than 0.01). Between 51 and 64% VO2 max, exogenous glucose oxidation and lipid oxidation tended to level off, whereas endogenous carbohydrate oxidation was markedly enhanced. The lesser contribution of exogenous glucose during the most intense exercise might be due to a decrease in the oxidation in the muscles or to a lesser availability of this exogenous glucose.

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Arrest of Apoptosis in Auditory Neurons: Implications for Sensorineural Preservation in Cochlear Implantation

Scarpidis¹,

Madnani²,

Shoemaker³

et al. 2003

Otology & Neurotology

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Radiative lifetime and oscillator strength determinations in Xe VI

et al. 2005

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Non-enzymatic glycation reduces heparin cofactor II anti-thrombin activity

Ceriello¹,

Marchi²,

Barbanti³

et al. 1990

Diabetologia

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The effects of non-enzymatic glycation on heparin cofactor II activity, at glucose concentrations which might be expected in physiological or diabetic conditions have been evaluated in this study. Radiolabelled glucose incorporation was associated with a loss of heparin cofactor anti-thrombin activity. The heparin cofactor heparin and dermatan sulfate-dependent inhibition of thrombin was significantly reduced, showing a remarkable decrease of the maximum second order rate constant. This study shows that heparin cofactor can be glycated at glucose concentrations found in the blood, and that this phenomenon produces a loss of heparin cofactor-antithrombin activity. These data suggest, furthermore, a possible link between heparin cofactor glycation and the pathogenesis of thrombosis in diabetes mellitus.

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Lefèbvre Pj

Oxidative Stress in the Cochlea: An Update

Fate of exogenous glucose during exercise of different intensities in humans

Arrest of Apoptosis in Auditory Neurons: Implications for Sensorineural Preservation in Cochlear Implantation

Radiative lifetime and oscillator strength determinations in Xe VI

Non-enzymatic glycation reduces heparin cofactor II anti-thrombin activity

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