Daussin, Frédéric 1979 -...
![Sudoc [ABES], France](/viaf/images/flags/SUDOC.png "Sudoc [ABES], France")
Frédéric N Daussin researcher
VIAF ID: 204097865 (Personal)
Permalink: http://viaf.org/viaf/204097865
Preferred Forms
4xx's: Alternate Name Forms (1)
Works
| Title | Sources |
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| AMPK activation stimulates autophagy and ameliorates muscular dystrophy in the mdx mouse diaphragm. |
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| Cyclophilin-D is dispensable for atrophy and mitochondrial apoptotic signalling in denervated muscle |
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| Different timing of changes in mitochondrial functions following endurance training. |
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| Effect of angiotensin-converting enzyme inhibition on skeletal muscle oxidative function and exercise capacity in streptozotocin-induced diabetic rats |
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| Effect of endurance training in interval continious or at high intensity in human : From systemic to cellular level. |
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| Effect of interval versus continuous training on cardiorespiratory and mitochondrial functions: relationship to aerobic performance improvements in sedentary subjects. |
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| Effect of work:rest cycle duration on fluctuations during intermittent exercise |
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| Effets d'un entraînement en endurance à charge constante, à charge variable ou à haute intensité chez l'homme : Etude intégrative du systémique au cellulaire |
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| Errors in facts and logic: what else? |
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| Evaluation of muscle oxygenation by near infrared spectroscopy in patients with facioscapulohumeral muscular dystrophy. |
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| Exercise-induced metabolic fluctuations influence AMPK, p38-MAPK and CaMKII phosphorylation in human skeletal muscle |
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| Improvement of VO2max by cardiac output and oxygen extraction adaptation during intermittent versus continuous endurance training |
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| Influence des perturbations métaboliques sur des voies de signalisation impliquées dans la biogenèse mitochondriale |
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| Influence of metabolic disturbances on signalling pathways involved in mitochondrial biogenesis. |
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| Intensity-dependent activation of intracellular signalling pathways in skeletal muscle: role of fibre type recruitment during exercise. |
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| The intra-mitochondrial O-GlcNAcylation system rapidly modulates OXPHOS function and ROS release in the heart |
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| Metabolic adaptations in response to dynamic eccentric exercise : application to rehabilitation. |
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| Microbiopsies versus Bergström needle for skeletal muscle sampling: impact on maximal mitochondrial respiration rate |
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| Mitochondria of trained skeletal muscle are protected from deleterious effects of statins |
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| Mitochondrial biogenesis and redox state : muscular adaptations to moderate and highintensity training in fish and murine models. |
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| Peroxisome proliferator-activated receptor γ coactivator1- gene α transfer restores mitochondrial biomass and improves mitochondrial calcium handling in post-necrotic mdx mouse skeletal muscle |
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| La prise en charge, à l'officine, des traumatismes du membre inférieur liés à la pratique du handball |
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| Quel environnement optimal pour le développement physique à long terme du jeune joueur de rugby Elite ? : Etude des caractéristiques physiques et des exigences en compétitions |
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| Solving the Fick principle using whole body measurements can be used to discriminate ''central'' and ''peripheral'' adaptations to training |
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| Stress-induced opening of the permeability transition pore in the dystrophin-deficient heart is attenuated by acute treatment with sildenafil |
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| What is the optimal environment for the long-term physical development of the young elite rugby player? : Study of the physical characteristics and competition demands. |
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