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100   $a20091118d2010      uy         0
101 0 $aeng
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181   $ctxt
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183   $acr
200 10$aHomeostatic role of the parasympathetic nervous system in human behavior /$fAure?lien Pichon and Didier Chapelot
205   $a1st ed.
210   $aHauppauge, N.Y. $cNova Science Publishers$dc2010
215   $a1 online resource (60 p.)
225 1 $aNeuroscience research progress series
300   $aDescription based upon print version of record.
311 08$a1-60876-804-X 
320   $aIncludes bibliographical references (p. [27]-41) and index.
327   $aIntro -- HOMEOSTATIC ROLE OF THE PARASYMPATHETIC NERVOUS SYSTEM IN HUMAN BEHAVIOR -- HOMEOSTATIC ROLE OF THE PARASYMPATHETIC NERVOUS SYSTEM IN HUMAN BEHAVIOR -- Contents -- Preface -- Chapter 1  INTRODUCTION -- Chapter 2  PARASYMPATHETIC ACTIVITY AND FATIGUE -- 2.1. Parasympathetic Activity and Chronic Fatigue Syndrome -- 2.1.1. Chronic Fatigue Syndrome and Autonomic Imbalance -- 2.1.2. Psychometric Assessment of Fatigue in CFS and Relation with Autonomic Imbalance -- 2.2. Parasympathetic Activity and Overtraining -- 2.2.1. Overtraining Syndrome and Autonomic Imbalance -- 2.2.3. Mood Alterations and Relation with Autonomic Imbalance -- 2.3. The Multistage Psychoautonomic Model of Adaptation to Training -- Chapter 3  PARASYMPATHETIC NERVOUS SYSTEM  AND EATING BEHAVIOR -- 3.1. HRV as a Method of Assessing Postprandial Sympathovagal Balance -- 3.2. Prandial Pattern and the Problem of Meal Definition -- 3.3. Cephalic Phase Reflexes -- 3.3.1. Cephalic Phases Reflexes: Roles and Mechanisms -- 3.3.2. Cephalic Phase of Insulin Release -- 3.4. Lipoprivic Feeding -- 3.5. Putative Role of the Parasympathetic Nervous System in Eating Behavior: The Lessons of Subdiaphragmatic Vagal Deafferentation -- Conclusion -- References -- Index.
330   $aIt was recently proposed that respiratory sinus arrhythmia (RSA) reflects the ability of the organism to integrate behavioural and metabolic demands, improving its homeostasis efficiency. Since the various anatomical and functional levels of the vagus nerve provide the conceptual basis of this allostatic model, it was designed under the name of the polyvagal theory. Therefore, altered RSA responses to various challenges could help to detect some dysfunctional states. The putative homeostatic roles of this vagal loop i.e., afferent and efferent pathways are reviewed here, in the domain of various psychological and behavioural homeostasis. Evaluation of the autonomic activity was issued from the temporal and frequency domain analyses of heart rate variability (HRV). For the purpose of preventing over-training, a heuristic sequential psychological and sympathovagal evolution is proposed, called the multistage psycho-autonomic model of adaptation to training (MPAMAT).
410  0$aNeuroscience research progress series.
606   $aParasympathetic nervous system
606   $aHomeostasis
606   $aFatigue
606   $aHunger
615  0$aParasympathetic nervous system.
615  0$aHomeostasis.
615  0$aFatigue.
615  0$aHunger.
676   $a612.8/9
700   $aPichon$b Aure?lien$01869683
701   $aChapelot$b Didier$01869684
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910967131303321
996   $aHomeostatic role of the parasympathetic nervous system in human behavior$94477899
997   $aUNINA