Global ETD Search

491	Rôle du RFRP dans le contrôle central de la reproduction saisonnière en fonction du sexe et de la photopériode / The roles of RFRP in the central control of reproduction : photoperiodic and sex-specific differences Henningsen, Jo Beldring 18 May 2016 (has links) Le RFRP est une neuropeptide impliqué dans la régulation de l’axe reproducteur, mais ses effets varient en fonction du sexe et des espèces. Le but de cette étude était de décrire en détails l’organisation du système RFRP et de caractériser son rôle dans le contrôle circadien et saisonnier de l’axe reproducteur de hamsters femelles. Les résultats montrent que le système RFRP est régulé par la photopériode et que son niveau d’expression est plus élevé chez les femelles que chez les mâles. Cela se traduit par des actions spécifiques sur l’axe gonadotrope femelle. En effet, L’activité des neurones à RFRP est diminuée au moment du pic pré-ovulatoire de LH et des injections centrales de RFRP-3 dans l’heure qui précède le pic de LH induisent une diminution de l’amplitude de la sécrétion de LH, démontrant une implication du RFRP dans la régulation circadienne du pic pré-ovulatoire de LH. Par ailleurs, des infusions chroniques de RFRP-3 chez des hamsters femelles sexuellement inactifs sont capables de réactiver le fonctionnement de l‘axe reproducteur, ce qui montre que le RFRP a un également un rôle régulateur essentiel dans le contrôle saisonnier de la reproduction. / RFRP neurons regulate the reproductive axis, however, their effects depend on species and sex. Here, we aimed at providing a neuroanatomical description of the RFRP system in the Syrian hamster and at investigating the role of RFRP in the daily and seasonal control of female reproduction. We show that besides being regulated by annual changes in photoperiod, the RFRP system is more strongly expressed in females than in males. In line with this, we unveil that RFRP has multiple roles in regulating female reproduction. RFRP neuronal activity is specifically reduced at the time of the pre-ovulatory LH surge and central RFRP-3 administration prior to the surge decreases LH peak levels, altogether pointing towards a daily down-regulation of the inhibitory RFRP signal necessary for proper generation of the LH surge. Moreover, chronic RFRP-3 infusion in sexually inactive females, with endogenous low RFRP expression, completely reactivates the reproductive axis. Taken together, we demonstrate that RFRP is a key component in the seasonal control of reproduction while at the same time specifically regulating cyclic events controlling reproductive activity in females. RFamide-related peptide Axe hypothalamo-hypophyso-gonadique Reproduction saisonnière Gonadotropin-releasing hormone Kisspeptin Rythme circadien RFamide-related peptide Hypothalamo-pituitary-gonadal axes Seasonal reproduction Gonadotropin-releasing hormone Kisspeptin Mediobasal hypothalamus Circadian rhythm 571.7 571.8
492	Impact of the Serotonin-Transporter-Polymorphism (5-HTTLPR) and Stressful Life Events on the Stress Response in Humans: Impact of the Serotonin-Transporter-Polymorphism (5-HTTLPR) and Stressful Life Events on the Stress Response in Humans Müller, Anett 24 September 2009 (has links) The 5-HTT gene (SLC6A4) is regulated by a common polymorphism in the promoter region (5-HTTLPR), which has functional consequences. Two major alleles have been observed and shown to have differential transcriptional activity with the long (L) allele having greater gene expression than the short (S) allele. 5-HTTLPR appears to modulate depression, anxiety and personality traits such as neuroticism. Additionally, a significant influence of 5-HTTLPR genotype on amygdala reactivity in response to fearful stimuli has been reported. Moreover, 5-HTTLPR seems to impact on the role of stressful life events (SLEs) in the development of depression. An elevated risk of depression and suicidal behaviors has been found in carriers of at least one low expressing S allele who had experienced SLEs, suggesting a gene x environment interaction. However, a recent meta-analysis showed that several findings failed to replicate this finding. Since genetic polymorphisms of the dopaminergic and serotonergic neurotransmission interact at the molecular, analyses with another polymorphism of the dopaminergic system, the dopamine D4 receptor (DRD4) was included to consider these likely gene-gene interactions (epistasis). The aim of this series of studies was to investigate the role 5-HTTLPR and SLEs on the endocrine stress response in different age samples. While newborns have been examined by a heel prick, stress responses were provoked in children (8-12 yrs) and younger adults (19-31 yrs) and older adults (54-68 yrs.) with the Trier Social Stress Test (TSST). The Life History Calendar (LHC) and Life Events Questionnaire (LEQ) were used to acquire data on SLEs. While in newborns the S/S genotype showed a significantly higher acute endocrine stress response than L/L or S/L genotypes, no significant difference between genotype groups was found in children. In the younger adult sample, the genotype impacted on cortisol stress responsiveness was reversed. Adults carrying the more active L allele of the 5-HTTLPR polymorphism showed a significantly larger cortisol response to the TSST than individuals carrying at least one of the lower expressing S allele. In older adults, no significant difference between genotype groups was found. However, results point in the same direction with showing highest cortisol response in individuals with L/L genotype. These data suggest that the association between 5-HTTLPR and endocrine stress reactivity seems to alter across lifespan, more specific the effects of genotype turns around. In addition, a significant interaction effect of 5-HTTLPR and SLEs has been found in the sample of younger adults, i.e. that early SLE as well as a severe number SLEs across the entire lifespan seem to modulate the interaction between HPA axis activity and 5-HTTLPR genotype. Additionally, a DRD4 by 5-HTTLPR interaction emerged which point to independent and joint effects of these polymorphisms on stress responsivity with regard to the concept of genegene interaction. info:eu-repo/classification/ddc/610 ddc:610
493	Arginine vasopressin and adrenocorticotropin secretion in response to psychosocial stress is attenuated by ethanol in sons of alcohol-dependent fathers Zimmermann, Ulrich, Spring, Konstanze, Wittchen, Hans-Ulrich, Himmerich, Hubertus, Landgraf, R., Uhr, Manfred, Holsboer, Florian January 2004 (has links) Familial risk and environmental stress promote the development of alcohol dependence. We investigated whether a positive family history of alcoholism affects the neuroendocrine response to a standardized laboratory stress test in healthy subjects without alcohol use disorders. Twenty-four high-risk subjects with a paternal history of alcoholism (PHA) and 16 family history negative (FHN) controls were evaluated. Psychosocial stress was induced by having subjects deliver a 5-min speech and mental arithmetics in front of an audience on separate days, after drinking either placebo or ethanol (0.6 g/kg) in a randomized sequence. Adrenocorticotropin (ACTH) was measured in 10 plasma samples covering up to 75 min after the stress test. Plasma arginine vasopressin (AVP) was determined before the stressor, at the time of maximum ACTH secretion, and at 75 min after stress onset. The stress test induced a phasic increase in ACTH secretion. At the time of maximum ACTH, AVP was significantly increased in relation to baseline. Compared to placebo, alcohol administration significantly attenuated maximum ACTH concentration in PHA but not FHN subjects, and decreased AVP measured in the same samples in PHA but not FHN subjects. We conclude that activation of the hypothalamic–pituitary–adrenal system by psychosocial stress is accompanied by an increase in peripheral plasma AVP levels. Secretion of both ACTH and AVP suggest that alcohol attenuates the stress response selectively in PHA but not FHN subjects. This might imply some short-term positive alcohol effect in sons of alcoholics, but also constitute a mechanism by which their risk to develop alcohol use disorders is increased. info:eu-repo/classification/ddc/150 ddc:150
494	The Role of Steroidogenic Factor 1 Cells in Modulating Skeletal Muscle Thermogenesis Shemery, Ashley M. 09 April 2020 (has links) No description available. Biomedical Research Cellular Biology Neurosciences Molecular Biology ventromedial hypothalamus skeletal muscle thermogenesis obesity energy expenditure DREADD RNA-seq VMH SF-1 high capacity runners low capacity runners HCR LCR predator threat stress physical activity synaptic plasticity
495	Approaches to the parametric modeling of hormone concentrations: Inference on acute secretory activity of the hypothalamic-pituitary-adrenal axis Miller, Robert 15 July 2013 (has links) Transdisciplinary research in general, and stress research in particular, requires an efficient integration of methodological knowledge of all involved academic disciplines, in order to obtain conclusions of incremental value about the investigated constructs. From a psychologist’s point of view, biochemistry and quantitative neuroendocrinology are of particular importance for the investigation of endocrine stress systems (i.e., the HPA axis, and the SNS). Despite of their fundamental role for the adequate assessment of endocrine activity, both topics are rarely covered by conventional psychological curriculae. Consequently, the transfer of the respective knowledge has to rely on other, less efficient channels of scientific exchange. The present thesis sets out to contribute to this exchange, by highlighting methodological issues that are repeatedly encountered in research on stress-related endocrine activity, and providing solutions to these issues. As outlined within this thesis, modern stress research tends to fall short of an adequate quantification of the kinetics and dynamics of bioactive cortisol. Cortisol has gained considerable popularity during the last decades, as its bioactive fraction is supposed to be reliably determinable from saliva and is therefore the most conveniently obtainable marker of HPA activity. However, a substantial fraction of salivary cortisol is metabolized to its inactivated form cortisone by the enzyme 11β-HSD2 in the parotid glands, which is likely to restrict its utility. Although the commonly used antibody-based quantification methods (i.e. immunoassays) might “involuntarily” qualify this issue to some degree (due to their inherent cross-reactivity with matrix components that are structurally-related to cortisol; e.g., cortisone), they also cause differential within-immunoassay measurement bias: Salivary cortisone has (as compared to salivary cortisol) a substantially longer half-life, which leads to an overestimation of cortisol levels the more time has passed since the onset of the prior HPA secretory episode, and thus tends to distort any inference on the kinetics of bioactive cortisol. Furthermore, absolute cortisol levels also depend on the between-immunoassay variation of antibodies. Consequently, raw signal comparisons between laboratories and studies, which are favorable as compared to effect comparisons, can hardly be performed. This finding also highlights the need for the long-sought standardization of biochemical measurement procedures. The presumably only way to circumvent both issues is to rely on quantification of ultrafiltrated blood cortisol by mass-spectrometric methods. Being partly related to biochemical considerations with research on HPA activity, a second topic arises concerning the operationalization of the construct itself: In contrast to the simple outcome measures like averaged reaction times, inclined stress researchers can only indirectly infer on the sub-processes being involved in HPA activity from longitudinally sampled hormone concentrations. HPA activity can be quantified either by (a) discrete-time, or by (b) continuous-time models. Although the former is the most popular and more convenient approach (as indicated by the overly frequent encounter of ANOVAs and trapezoidal AUC calculations in the field of psychobiological stress research), most discrete time models form rather data-driven, descriptive approaches to quantify HPA activity, that assume the existence of some endocrine resting-state (i.e., a baseline) at the first sampling point and disregard any mechanistic hormonal change occurring in between all following sampling points. Even if one ignores the fact, that such properties are unlikely to pertain to endocrine systems in general, many generic discrete time models fail to account for the specific structure of endocrine data that results from biochemical hormone measurement, as well as from the dynamics of the investigated system. More precisely speaking, cortisol time series violate homoscedasticity, residual normality, and sphericity, which need to be present in order to enable (mixed effects) GLM-based analyses. Neglecting these prerequisites may lead to inference bias unless counter-measures are taken. Such counter-measures usually involve alteration of the scale of hormone concentrations via transformation techniques. As such, a fourth-root transformation of salivary cortisol (being determined by a widely used, commercially available immunoassay) is shown to yield the optimal tradeoff for generating homoscedasticity and residual normality simultaneously. Although the violation of sphericity could be partly accounted for by several correction techniques, many modern software packages for structural equation modeling (e.g., Mplus, OpenMX, Lavaan) also offer the opportunity to easily specify more appropriate moment structures via path notation and therefore to relax the modeling assumptions of GLM approaches to the analysis of longitudinal hormone data. Proceeding from this reasoning, this thesis illustrates how one can additionally incorporate hypotheses about HPA functioning, and thus model all relevant sub-processes that give rise to HPA kinetics and dynamics. The ALT modeling framework being advocated within this thesis, is shown to serve well for this purpose: ALT modeling can recover HPA activity parameters, which are directly interpretable within a physiological framework, that is, distinct growth factors representing the amount of secreted cortisol and velocity of cortisol elimination can serve to interpret HPA reactivity and regulation in a more unambiguous way, as compared to GLM effect measures. For illustration of these advantages on a content level, cortisol elimination after stress induction was found to be elevated as compared to its known pharmacokinetics. While the mechanism behind this effect requires further investigation, its detection would obviously have been more difficult upon application of conventional GLM methods. Further extension of the ALT framework allowed to address a methodological question, which had previously been dealt with by a mere rule of thumb; what’s the optimal threshold criterion, that enables a convenient but comparably accurate classification of individuals whose HPA axis is or is not activated upon encountering a stressful situation? While a rather arbitrarily chosen baseline-to-peak threshold of 2.5 nmol/L was commonly used to identify episodes of secretory HPA activity in time series of salivary cortisol concentrations, a reanalysis of a TSST meta- dataset by means of ALT mixture modeling suggested that this 2.5 nmol/L criterion is overly conservative with modern biochemical measurement tools and should be lowered according to the precision of the utilized assay (i.e., 1.5 nmol/L). In sum, parametric ALT modeling of endocrine activity can provide a convenient alternative to the commonly utilized GLM-based approaches that enables the inference on and quantification of distinct HPA components on a theoretical foundation, and thus to bridge the gap between discrete- and continuous-time modeling frameworks. The implementation of the outlined modeling approaches by the respective statistical syntaxes and practical guidelines being derived from the comparison of cortisol assays mentioned above, are provided in the appendix of the present thesis, which will hopefully help stress researchers to directly quantify the construct they actually intend to assess.:1. Introduction 2. The hypothalamus-pituitary-adrenal (HPA) axis 3. Induction and quantification of HPA activity 4. The pitfalls of SCC measurement 5. Creating normality and homoscedasticity: GLM-based analyses 6. Relaxing sphericity: moment structure analyses 7. General conclusion info:eu-repo/classification/ddc/155 ddc:155
496	Localisation of Traumatic Brain Injury / Lokalisering av traumatisk hjärnskada Sharma, Yogesh, Hägglund, MIchael Zewde January 2023 (has links) TBI stands for Traumatic Brain Injury and refers to damage to the brain resulting from an external physical force, such as a blow, jolt, or penetrating injury to the head. Common causes of TBI include falls, motor vehicle accidents, sports injuries, and violence and has been linked to thousands of deaths and injuries in the US and the EU alike. This thesis was aimed to localise certain TBI to a specific part of the brain by exerting similar loading conditions on an Finite Element Method (FEM) of the rat brain as physical experiments conducted on living rats. By comparing the strain in 7 vital parts of the brain to injury diagnosis conducted in the physical experiments, an effort was made to link localised strain to injury diagnosis. The results indicate that strain in the thalamus and hypothalamus are linked with a loss of consciousness while strain in the hypothalamus coupled with the neocortex correlates greatly with activity-based behaviour changes. Lastly, injury associated with emotional changes are believed to stem from large strains in the neocortex. There is a theory suggesting that the structure of myeline, which provides support in motion and movement patterns of biological systems in humans and animals (known as biomechanical kinematics), could have an impact. However, more studies are needed to confirm and determine the exact cause. / TBI, från engelskans Traumatic Brain Injury, står för Traumatisk Hjärn Skada och syftar på en skada i hjärnan till följd av enyttre fysisk kraft, såsom ett slag, stöt eller genomträngande skada i huvudet. Vanliga orsaker till TBI inkluderar fall, motorfordonsolyckor, sportskador och våld och har kopplats till tusentals dödsfall och skadade i både USA och EU. Denna rapport syftar till att försöka lokalisera viss TBI till en specifik del av hjärnan genom att utöva liknandebelastningsförhållanden på en finit elementmetod (FEM) modell av råtthjärnan som fysiska experimentutförs på levande råttor. Genom att jämföra belastningen i 7 vitala delar av hjärnan med skadediagnos som utfördes i de fysiska experimenten gjordes en ansträngning för att koppla lokaliserad belastning till skadediagnos. Resultaten indikerar att skada i thalamus och hypotalamus är kopplade till en förlust av medvetande medan belastning i hypotalamus i kombination med neocortex korrelerar kraftigtmed aktivitetsbaserade beteendeförändringar. Slutligen är skador i samband med känslomässiga förändringartros härröra från skada i neocortex. Det finns teori som tyder på attstruktur av myelin, som ger stöd i rörelse och rörelsemönster av biologiskasystem hos människor och djur (känd som biomekanisk kinematik), kan ha en inverkan.Det behövs dock fler studier för att bekräfta och fastställa den exakta orsaken. Traumatic Brain Injury (TBI) Rat brain Finite Element Method (FEM) strain localisation thalamus hypothalamus neocortex Traumatisk hjärnskada (TBI) Råtthjärna Finita Element Metod (FEM) belastning lokalisering thalamus hypotalamus neocortex Medical Engineering Medicinteknik
497	Central Mechanisms Regulating Pituitary-Adrenal Activity in Infant Guinea Pigs (Cavia porcellus) during Exposure to Psychological Stressors: Independent and Combined Effects of Maternal Separation and Novelty Maken, Deborah Suzanne 11 December 2009 (has links) No description available. Biomedical Research Developmental Psychology Psychobiology Maternal Separation c-Fos protein CRF mRNA ACTH Cortisol Psychological Stressor Novelty MeA BNST PVN Hypothalamus Pituitary Adrenal Medial Amygdala Bed Nucleus of the Stria Terminalus Paraventricular Nucleus Novel Environment HPA axis
498	Potential Mechanisms Underlying Adaptive Thermogenesis in Lean and Obesity-Prone Rats Mukherjee, Sromona 21 April 2016 (has links) No description available. Biology Biomedical Research Physiology Cellular Biology Molecular Biology obesity adaptive thermogenesis non exercise activity thermogenesis-NEAT aerobic capacity high- and low-capacity runners energy expenditure physical activity skeletal muscle hypothalamus brain melanocortin system
499	Neuronal hypothalamic plasticity in chicken Sallagundala, Nagaraja 05 April 2007 (has links) Aufgabe der elektrophysiologischen Studie zur Charakterisierung der neuronalen hypothalamischen Plastizität beim Haushuhn war es, den Einfluss des Alters sowie GABAerger Substanzen auf die Feuerrate und die Temperatursensitivität (thermischer Koeffizient: TC) von Hypothalamusneuronen mittels extrazellulärer Ableitungen in Hirnschnitten zu untersuchen. Im Vergleich zu adulten Vögeln und Säugetieren wurde bei juvenilen Hühnern eine hohe neuronale Kältesensitivität nachgewiesen, die offensichtlich eine spezifische Eigenschaft juveniler Vögel ist. Die Ontogenese der neuronalen hypothalamischen Thermosensitivität ist deutlich artspezifisch. Einige Neurone wiesen eine inherente Kältesensitivität auf. Eine mögliche zentrale Rolle kältesensitiver Neurone im Rahmen der Thermoregulation juveniler Hühner wurde postuliert. Muscimol und Baclofen hemmen signifikant die Feuerrate der Hypothalamusneurone, unabhängig von der jeweiligen Thermosensitivität. Demgegenüber bewirken Bicucullin und CGP35348 einem Anstieg der Feuerrate. Nur bei kältesensitiven Neuronen wurde der TC signifikant durch GABAB-Rezeptor-Liganden verändert (signifikant erhöht durch Baclofen und durch CGP35348 gehemmt). Der Effekt von Muscimol und Baclofen auf Feuerrate und TC wurde durch Co-Perfusion mit einer 10-fach höheren Konzentration der entsprechenden Antagonisten Bicucullin und CGP35348 aufgehoben. Der wesentliche GABAerge Einfluss auf thermosensitive und –insensitive Hypothalamusneurone ist mit dem bei Säugetieren nachgewiesenen vergleichbar. Der einzige Unterschied betrifft die GABAB-Rezeptor vermittelte Änderung des TC. Beim Hühnerküken betraf dies die kältesensitiven und beim Säugetier die wärmesensitiven Neurone. Der grundlegende Mechanismus der GABAergen Beeinflussung thermosensitiver und –insensitiver Neurone scheint einen älteren evolutionären Ursprung zu haben. Eine funktionelle Rolle GABAerger Substanzen im Rahmen der zentralen Kontrolle der Körpertemperatur beim Vogel ist möglich. / In the present electrophysiological studies, characterization of neuronal hypothalamic plasticity in the chicken aims to investigate the influence of age during development by extracellular recordings. High neuronal cold sensitivity has been found in juvenile chicken in contrast to adult mammals and birds. High hypothalamic cold sensitivity seems to be a specific characteristic feature in juvenile birds. Between species a species specificity of the early development of neuronal hypothalamic thermosensitivity could be clearly demonstrated. Existence of inherent nature to a certain degree suggests a possible thermoregulatory role of cold-sensitive neurons in chicken. The effects of the GABAergic substances on neuronal tonic activity (firing rate) and temperature sensitivity (temperature coefficient) in hypothalamic neurons have been examined. Muscimol and baclofen in equimolar concentrations significantly inhibited tonic activity, regardless of their type of thermosensitivity. In contrast bicuculline and CGP 35348 increased firing rate. Temperature coefficient was significantly changed by ligands of GABAB receptors, restricted to cold-sensitive neurons. The TC was significantly increased by baclofen and significantly decreased by CGP 35348. Effects of muscimol and baclofen on firing rate and TC were prevented by co-perfusion of appropriate antagonists bicuculline and CGP 35348, respectively in tenfold higher concentration. Thus the main effects of GABA in chicken are similar with that described in mammals. The only difference is in respect of the GABAB receptors mediated change restricted to cold-sensitive neurons in chicken but in mammals only seen in warm-sensitive neurons. However, the results indicate that the fundamental mechanism of GABAergic influence in chicken are conserved during evolution. The response of hypothalamic neurons to temperature changes suggest a possible functional role of GABAergic substances in the control of body temperature in birds. Haushuhn Neuronale Thermosensitivität Hirnschitte Feurrate juvenile Vögel Temperaturkoeffizient GABAA -Rezeptor-Agonist Muscimol GABAA -Rezeptor-Antagonist Bicuculline GABAB -Rezeptor-Agonist Baclofen GABAB -Rezeptor-Antagonist CGP35348. Chicken Neuronal thermosensitivity Brain slices Fire rate young chicken Temperature co-efficient GABAA -Receptor-Agonist Muscimol GABAA -Receptor-Antagonist Bicuculline GABAB -Receptor-Agonist Baclofen GABAB -Receptor-Antagonist CGP35348 570 Biowissenschaften, Biologie 32 Biologie YG 1804 ddc:570
500	Mecanismes moleculars en el transtorn de la conducta alimentària: estudis en humans i en model murins Mercader Bigas, Josep Maria 11 July 2008 (has links) Els trastorns de la conducta alimentària (TCA) tenen una etiologia complexa en la que hi intervenen factors de predisposició socioculturals, ambientals i genètics. S'ha aprofundit en les bases moleculars dels TCA mitjançant estudis en pacients i en models murins. S'ha descrit una alteració en la concentració de BDNF en plasma de pacients, una correlació d'aquests nivells amb trets psicopatològics, i una associació de determinats polimorfismes a bulímia nerviosa i als nivells de BDNF en plasma. Un estudi d'associació en vàries poblacions ha demostrat una forta associació de variants del gen NTRK3, amb epistasi amb NGF, a TCA. Un model de sobreexpressió de BDNF confirma el seu paper en la regulació del pes corporal i estableix un possible vincle entre BDNF i la fisiopatologia de les tremolors. La caracterització del ratolí anx/anx suggereix que pot ser un model de la síndrome caquètica que acompanya malalties com el càncer, la SIDA o les malalties autoimmunitàries. / Eating disorders (ED) are complex disorders were environmental, sociocultural and genetic factors are involved. We have improved the knowledge of the genetic basis of ED through studies involving ED patients and murine models. Altered BDNF blood levels have been linked to ED and its related psychopathological traits. In addition several polymorphisms in the BDNF gene have been associated to bulimia nervosa and BDNF plasma levels. A family based association study has shown a strong association of NTRK3 variants to ED which show epistasis with NGF. The generation of an overexpression mouse model for BDNF confirms its role in body weight regulation and establishes a possible link between BDNF and the pathophysiology of tremors. The characterization of the anx/anx mouse model suggests that it may be a good model for the cachexia syndrome that accompanies certain chronic or inflammatory diseases such as cancer, AIDS or autoimmune diseases. microarray miRNAs transcriptoma hypothalamus cachexia feeding regulation anx/anx NGF NTRK3 SNPs psychopathology neurotrophin BNDF bulimia nervosa anorexia nervosa eating disorders microarray miRNAs transcriptoma hipotàlem caquèxia regulació de ingesta anx/anx NGF NTRK3 neurotrofines BDNF SNPs psicopatologia bulímia nerviosa anorèxia nerviosa trastorns de la conducta alimentària 57 577 61

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