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Chapter 12: Emotional Behaviors Module 12.1: What is emotion anyway? Module 12.2: Stress & Health Module 12.3: A

Chapter 12: Emotional Behaviors Module 12.1: What is emotion anyway? Module 12.2: Stress & Health Module 12.3: Attack & Escape Behaviors. Introduction. Defining Emotions subjective behavioral physiological Consciousness & Emotion cannot be unconscious and experience emotion

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Chapter 12: Emotional Behaviors Module 12.1: What is emotion anyway? Module 12.2: Stress & Health Module 12.3: A

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  1. Chapter 12: Emotional Behaviors • Module 12.1: What is emotion anyway? • Module 12.2: Stress & Health • Module 12.3: Attack & Escape Behaviors

  2. Introduction • Defining Emotions • subjective • behavioral • physiological • Consciousness & Emotion • cannot be unconscious and experience emotion • absence seizures • emotion can be caused by unconscious influences • Tranel & Demasio, 1993

  3. Usefulness of Emotions • Assist in decision making • Prefrontal cortex damage lose their emotions and their decision making suffers • affective feedback gone (“feeling good, bad about consequences” • anticipation of consequences reduced • morality • Emotions and readiness behavior • Emotions and increased motivation • Emotions start the fight-or-flight response • sympathetic activation • parasympathetic activation

  4. Theories of Emotions/Emotional Arousal • James-Lange theory- (note: text description is incorrect) • primacy of autonomic arousal (and skeletal actions) in emotional identification • Cannon-Bard theory- • a stimulus evokes the emotional experience and the physical arousal simultaneously but independently • Schacter-Singer theory- • the physiological changes tell you how strong your emotion is, but need some contextual or cognitive cue to identify which emotion being felt. • Primacy of cognition and importance of environment • Support for J-L Theory- • facial feeback hypothesis (Ekman) • Spinal Cord Patients (Hohmann) • Locked-in syndrome

  5. Behavioral Medicine stress, personality, experience in health and disease processess Stress-the nonspecific response of the body to any demand made upon it (Selye). Physiological based definition (there are others) Stress Activates Autonomic Nervous system (nervous) HPAC System (hormonal) Stress and Health Pathways of the sympathetic and parasympathetic nervous systems

  6. Evidence of Mind-Body Interactions • Psychosomatic Illness • Onset of illness due to someone’s personality, emotions, or experiences • Ulcers • Ulcers can be formed when an individual experiences a great deal of stress • effect on digestive system (saliva secretion, HCL secretion, peristaltic action) • Control of the stress can alter ulcer formation • yoked pairs, executive monkey research, predictability & control • Ulcers are formed when the parasympathetic nervous system rebounds after the stress • post stress rebound effects • heliobactor pylori

  7. Evidence of Mind-Body Interactions • Heart Disease • Data may indicate that people who experience frequent hostility are more prone to heart disease • Voodoo Death • Richter found that voodoo death may be due to parasympathetic rebound

  8. HPA Axis (hypothalamic-pituitary-adrenal) Slower to respond Important in chronic stress Activation of hypothalamus causes release of ACTH from pituitary and release of cortisol from adrenal Cortisol mobilizes resources but can be harmful if prolonged exposure Autonomic Nervous System Rapid Response System Important in more Acute Stressors Results in activation of Sympathetic Nervous System Stress Activation in the Body

  9. The hypothalamus-anterior pituitary-adrenal cortex axisProlonged stress leads to the secretion of the adrenal hormone cortisol, which elevates blood sugar and increases metabolism. These changes help the body sustain prolonged activity but at the expense of decreased immune system activity.

  10. Immune System Cells • Consists of cells that protect the body against invaders like bacteria and viruses • Leukocytes • White Blood Cells • Patrol blood and other body fluids for invaders • Identifies antigens on intruders and signal attack from immune system • Macrophage • Surrounds intruder, digests it, and exposes its antigens on its own surface

  11. More Immune System Cells • B Cell • attaches to an intruder and produces specific antibodies to attack the intruder’s antigen • antibodies are Y-shaped proteins that circulate in the blood, specifically attaching to one kind of antigen • T Cell • Cytotoxic-directly attack intruder cells • Helper-stimulate other T cells or B cells to multiply more rapidly • Natural Killer Cells • blood cells that attach to certain kinds of tumor cells and cells infected with viruses

  12. More Immune System Cells/Products • Cytokines • Chemicals released by the immune system that attack infections and also communicate with the brain to elicit anti-illness behaviors • Fevers make the body a lest hospitable host • sleepiness, decreased muscle activity, decreased sex drive conserve energy • decreased appetite may deprive body of iron needed by viruses

  13. Immune system responses to a bacterial infectionA macrophage cell engulfs a bacterial cell and displays one of the bacteria’s antigens on its surface. Meanwhile a B cell also binds to the bacteria and produces antibodies against the bacteria. A helper T cell attaches to both the macrophage and the B cell; it stimulates the B cell to generate copies of itself, called B memory cells, which immunize the body against future invasions by the same kind of bacteria.

  14. Stress Effects on the Immune System • Short-term stress acts to increase immune system function • Long-term stress decreases immune system function • Reduced levels of natural killer cells, B cells, and T cells • Reduced T cell function • Reduced NK cell function • Reduced resistance to infection

  15. Stress Effects on the Brain • Selective cell death to hippocampal cells • Due to high cortisol levels • damage to hippocampus can lead to an increase in cortisol levels; creating a vicious cycle of cell death and high cortisol levels • Aged people with high cortisol levels show the greatest deterioration of the hippocampus and resulting memory impairment

  16. Post-Traumatic Stress Disorder • Who is Affected? • People who have had a traumatic experience of being severely injured or threatened • people who have seen other people harmed or killed • What are the Symptoms? • Frequent flashbacks and nightmares about the event • avoidance of reminders of the event • exaggerated arousal in response to noises and other stimuli

  17. Attack Behaviors • Affective Attack • highly emotional attack behavior • triggered by pain or threat or when primed • Heredity and Environment in Human Violence • Evidence for a genetic or prenatal environment component • Children exposed to families experiencing discord, depression, substance abuse or legal problems are more likely to demonstrate aggressive behaviors

  18. Physiology of Aggression • Hormones • High levels of testosterone are associated with aggression • Serotonin • low serotonin turnover is associated with increased aggression • Temporal Lobe • Stimulation of ventromedial hypothalamus or amygdala can result in aggression

  19. Location of amygdala in the human brainThe amygdala, located in the interior of the temporal lobe, receives input from many cortical and subcortical areas. Part (a) shows a blow-up of separate nuclei of the amygdala.

  20. Escape Behaviors • Two Types • Fear-transient • Anxiety-can be long lasting • Brain Mechanisms • Associated with excitation of amygdala • Most likely associated with GABA pathways • Anti-anxiety drugs decrease fear and anxiety by facilitating inhibition at GABA synapses

  21. The GABAA receptor complexOf its four receptor sites sensitive to GABA, the three a sites are also sensitive to benzodiazepines.

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