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Book
Year: 2016 Publisher: Bruxelles: UCL. Faculté de pharmacie et des sciences biomédicales,
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During periods when concentration is highly needed (like the finals for students, for example), any little help is welcome. Some healthy people use psychostimulants normally intended for sick individuals. These drugs are generally methylphenidate, amphetamines and modafinil. But are they really effective and what are their risks? Is this diversion of drugs worthwhile? This work will attempt to answer these questions and offer methods to prevent this phenomenon. Lors de périodes où la concentration est fortement sollicitée (comme le blocus pour les étudiants, par exemple), le moindre petit coup de pouce est le bienvenu.Certaines personnes saines vont jusqu'à utiliser des psychostimulants normalement prévus pour des individus malades. Ces médicaments sont surtout le méthylphénidate, les amphétamines et le modafinil. Mais ceux-ci sont-ils vraiment efficaces et quels sont leurs risques ? Finalement, ce détournement de médicaments en vaut-il vraiment la peine ? Ce mémoire tentera de répondre à ces questions et proposera même des méthodes de prévention face à ce phénomène.
Book
ISBN: 3527253750 Year: 1973 Publisher: Weinheim Verl. Chemie
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Central Nervous System Agents --- Pharmaceutical Preparations
Book
ISBN: 9780521136723 Year: 2010 Publisher: Cambridge : Cambridge University Press,
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Neuropharmacology --- Central Nervous System Agents --- Central Nervous System Diseases --- pharmacology --- therapeutic use --- drug therapy
ISBN: 9780195093339 9780195093346 0195093348 019509333X Year: 1998 Publisher: New York: Oxford university press,
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Neuropharmacology --- Neuropsychopharmacology --- Central nervous system --- Central Nervous System Agents --- Central Nervous System
Dissertation
ISBN: 9062565417 Year: 1987 Publisher: Amsterdam Free university press
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Dopamine --- Receptors, Dopamine --- Cerebral Cortex --- Central Nervous System Agents --- metabolism --- physiology --- physiology
Periodical
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Drugs --- Neuropsychopharmacology --- Central Nervous System Agents. --- Clinical Trials as Topic. --- Drug Approval. --- Clinical Trials.
Dissertation
Year: 1988 Publisher: 's-Gravenhage Pasmans
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Central Nervous System --- Barbiturates --- Central Nervous System Agents --- Brain --- drug effects --- pharmacokinetics --- pharmacokinetics --- drug effects
Book
ISBN: 9781316618134 Year: 2017 Publisher: Cambridge : Cambridge University Press,
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Psychotropic drugs --- Psychopharmacology --- Psychotropic Drugs --- Neuropharmacology. --- Central Nervous System Agents --- Mental Disorders --- Psychopharmacologie. --- Psychotropes. --- pharmacology. --- drug therapy. --- therapeutic use.
Book
Year: 2009 Publisher: Bruxelles: UCL,
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Background: Ethanol exerts its action on neurons through several mechanisms. Because of its small size, ethanol is not a very specific ligand. This characteristic may explain the low specificity of the effects of ethanol.
Methods: Given the extent of my thesis subject, my review was limited to articles published between 2000 and 2009. this examination is based on the contents of synthesis articles published in 2008.
Results: Ethanol alters the fluidity of neuronal membranes. This effect is offset by the homeostatic mechanisms that restore the initial rigidity. Upon the discontinuation of a chronic consumption of ethanol, a rigidity excess of neuronal membranes can be observed. Ethanol also modifies the activity if neurotransmitters, neurotrophins and neurosteroids. These effects may be the cause f acute exposure, chronic exposure of withdrawal.
Conclusions : Ethanol acts primarily by modifying synaptic transmission within the central nervous system. This change involves in particular several neurotransmitters: glutamate, GABA, dopamine, adenosine, serotonin, endogenous opioids, neuropeptides and endocannabinoids. Many of these neurotransmitters are considered as potential targets for the pharmacological treatment of alcoholism Contexte: L’éthanol exerce son action sur les neurones par l’intermédiaire de nombreux mécanismes. Du fait de sa petite taille, l’éthanol ne constitue pas un ligand très spécifique. Cette caractéristique peut expliquer la faible spécificité des effets de l’éthanol.
Méthodes : Au regard de l’étendue de mon sujet de mémoire, je me suis limitée à la recherche d’articles publiés entre 2000 et 2009. Cette recherche a été basée sur le contenu d’articles de synthèse publiés en 2008.
Résultats : L’éthanol modifie la fluidité des membranes neuronales. Cet effet est compensé par les mécanismes homéostatiques qui rétablissent la rigidité initiale. Lors de l’arrêt d’une consommation chronique d’éthanol, on observe un excès de rigidité des membranes neuronales. L’éthanol modifie également l’activité des neurotransmetteurs, des neurotrophines et des neurostéroïdes. Ces effets peuvent être la cause d’une exposition aiguë, d’une exposition chronique ou d’un sevrage.
Conclusions :L’éthanol agit principalement en modifiant la transmission synaptique au niveau du système nerveux central. Cette modification implique particulièrement plusieurs neurotransmetteurs : le glutamate, le GABA, la dopamine, l’adénosine, la sérotonine, les opioïdes endogènes, les neuropeptides et les endocannabinoïdes. La plupart de ces neurotransmetteurs sont considérés comme étant des cibles potentielles pour le traitement pharmacologique de l’alcoolisme
Periodical
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Neuropharmacology --- Central nervous system --- Neuropharmacology. --- Central Nervous System Agents --- Effect of drugs on --- Effect of drugs on. --- pharmacology. --- Nervous system --- Neurotropic drugs --- Nervous system, Central --- Drug effects --- pharmacology --- Central Nervous System Drugs --- Neuropharmacologies --- Neurosciences --- Pharmacology
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