heidi day, ph.d. asst. research professor psychology dept...
TRANSCRIPT
Heidi Day, Ph.D.Asst. Research
Professor
Psychology Dept.& Center forNeuroscience
What is stress?“Stressed out” is a
uniquely American term that’s been adopted by many other languages
Perceptionof event
Physiologicalreactions
Feelingof Fear/Anxiety/Stress
Common Sense View
How are emotions and physiological responses linked?
EMOTIONSEMOTIONS
I. James-Lange theory (1884): A theory ofemotion that suggests that behaviors andphysiological responses are directly elicited bysituations and that feelings of emotions areproduced by feedback from these behaviorsand responses
Example: the sight of a bear elicits increases in several autonomic (heart rate, blood pressure, etc), endocrine (hormonal) and behavioral responses (running), which in turn produce the conscious feeling of fear.
Perceptionof bear
Physiologicalreactions
Feelingof Fear
II. Cannon-Bard theory
(1900s): The theory that emotional experience and emotional expression are parallel processes that have no direct causal relation
(i.e., autonomic and behavioral responsesare completely independent from “feelings”)
Perceptionof bear
Physiologicalreactions
Feelingof Fear
Predictions of these two theories:
-James-Lange theory predicts that withoutautonomic and somatic feedback, people would have no emotions
- Cannon-Bard theory predicts just the opposite, that person does not need autonomic and somatic feedback to be aware of emotions
Studies have indicated that both theories are right and wrong at the same time
Perceptionof bear
Physiologicalreactions
Feelingof Fear
Modern Biopsychological View
The Limbic System and Emotion(Limbic = “Border”) The limbic system consists of interconnected brain structures that border the thalamus. It is believed to be important for emotional expression and feelings and is activated by psychological stressors.
Papez (1937) proposed that emotional experience may be the product of limbic activity upon the cortex and that emotional expression is produced by activity of the limbic circuit upon the hypothalamus. These brain regions tend to have reciprocal connections, and can influence each other.
The prefrontal cortex is thought to be very important for decreasing activity in the amygdala.
Olfactory Bulb*
Hypothalamus*
Amygdala*
Hippocampus*
Thalamus
Prefrontal Cortex
* Some key structures within limbic system
The Kluver-Bucy syndrome:
In monkeys, removal of temporal lobes (including amygdaloid complex (or amygdala), resulted in tame monkeys, that showed no fear (1937).
This syndrome has been observed in humans also. Behavioral outcome of bilateral loss of amygdala:
- flat affect (emotions)- consumption of nearly everything edible;- increased, but inappropriate, sexual activity(often towards inanimate objects);
- tendency to repeatedly investigate same objects;- tendency to investigate objects with mouth;- lack of fear
The Amygdala and Fear
Miller et al., (2005) J. Neuropsychiatry Clin. Neurosci. 17:1-6
Masked fearful faces Masked angry faces
e.g. The amygdala is activated after seeing pictures of fearful or angry faces. It does not require conscious awareness of emotion to be activated.
Imaging studies e.g. functional magnetic resonance imaging (fMRI) which indirectly measures neuronal activation, also show that the amygdala is central to the fear response.
Amygdala
fMRI is based on the facts that:1. active neurons use oxygen, so there will be
increased blood flow to the area.2. oxyhemoglobin and deoxyhemoglobin have
different magnetic properties
Amygdala & Fear Conditioning
Thalamus
Cortex
AmygdalaAssociativeProcesses
Hypothalamus Brainstem
PrefrontalCortex x
Sensory cue:Sight, smell,
sound etc
Endocrine, Sympathetic &Behavioral Responses
Possible clinical relevance for anxiety disorders, PTSD
NoxiousStimulus
The term “stress” and its associated physiological effects was originally defined by Hans Selye(1940’s) in recognition of a “generalized” alarm system in response to illness and surgery in humans.
One current definition of a stress response is:“A non-specific physiological reaction caused by the
perception or detection of aversive or threatening situations that may jeopardize some homeostatic functions.”
Stressful situations can be divided into 2 categories:
1. Psychological/Emotional Stressors
2. Systemic Stressors
Different brain regions may be involved, particularly in the initial response.
A Three-System View of Stress
Behavior
HPA axis(Hypothalamic-
Pituitary-Adrenal) Autonomic
Stress and the Autonomic Nervous System
Sympathetic neurons of the autonomic nervous system become more active (involuntary), release norepinephrine and very quickly cause a wide array of physiological responses.e.g. increase heart rate, dilate bronchioles, dilate pupils, relax bladder, inhibit saliva, inhibit digestion, piloerection, increase sweat, increase glucagonrelease from liver.
Stress and the Autonomic Nervous System
The sympathetic nervous system also innervates (has nerve input to) the adrenal medulla. Secretory cells of the adrenal medulla release epinephrine (adrenaline) and norepinephrine (noradrenaline) that then act as hormones, and also increase heart rate etc. This is also a relatively fast response.
Stress and the Hypothalamic Pituitary Adrenal Axis
The anterior pituitary releases adrenocorticotropic hormone (ACTH), which elicits the release of glucocorticoids (cortisol) from the adrenal cortex.Relatively slow and long lasting response (peaks after ~ 30 min. and returns to baseline after ~ 2 hours). Virtually all cells have receptors for glucocorticoids.
*
**
This is an endocrine or hormonal response
Psychological versus Systemic Stressors
Psychological/Emotional Stressors: Limbic System Involved
Systemic/Physical Stressors (e.g. blood born pathogens or poisons, immune stressors, hemorrhage): Limbic system not involved.
1. circumventricular organs (areas of the brain that do not have the blood brain barrier)
2. somatosensory system3. autonomic nervous systemResponses are similar e.g. increase in glucocorticoids
AnteriorPituitary
ACTH
AdrenalCortex
Glucocorticoids
Vagus nerve
Interleukin-1
hypothalamus brainstem
Is Stress Bad for You?
Acute stress Responses are ADVANTAGEOUS:
• increases in heart rate and blood pressure to bring more blood to muscles
• mobilization of energy resources (production and release of glucose for use by muscles)
• inhibition of inflammatory responses• Inhibition of sexual functions and sex steroid
production and release
• But the response needs to be turned off rapidly. Dr. Bob Spencer (Psych) works on glucocorticoid negative feedback.
Chronic stress responses are DISADVANTAGEOUS:
• hypertension & heart disease• cancer• gastrointestinal ulcers• diabetes• inhibition of growth • Infertility• drug abuse and relapse• suppression of the immune system (eg increased
susceptibility to colds and infections, decreased response to vaccination: movie)
• damage to the brain (Hippocampus: movie)
Incidence of hypertension in various age groups of air traffic
controllers at high-stress and low-stress airports
Percentage of caregivers and control subjects whose wounds had healed as a function of time after a biopsy was performed
Percentage of subjects with colds as a function of an index
of psychological stress
***MOVIES***
Reducing the effects of Stress:Stress Resistance Versus Stress Resilience
Current knowledge is very hazy!
We know that stress can be bad for your health, and that some interventions (e.g. feeling in control, exercise) seem to prevent some of the deleterious effects of stress. We don’t know how these interventions help.
1. Stress Resistance: A stressor has a smaller psychological and physiological effect.
2. Stress Resilience: A stressor has the same physiological effect, but despite this, the consequences are not as bad.
E.g. Despite high levels of glucocorticoids, hippocampal atrophy is not as bad.
Feeling in ControlFeeling in Control
Many situations are “perceived” as stressful by some people, not others.
The perceived control over a situation, even if it is an illusion, can prevent some of the negative effects of stress – to have the perception of control is called a coping response.
Animals and humans that display coping responses generally have reduced incidence of cardiovascular problems, gastric ulcers and psychological problems.
Dr. Steve Maier (Psych) works on stress controllability – the prefrontal cortex is very important
Model: Inescapable versus Escapable Shock
Groups:1. Control/baseline: Placed in apparatus, but no shock2. Escapable Shock: 100 tail shocks, active wheel to control shock termination3. Inescapable Shock: 100 identical tail shocks, inactive wheel. (Spins, but does not turn off shock)
Important: The Inescapable and Escapable animals are YOKED, so they receive exactly the same physical stress, but one has CONTROL, and the other does not.
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Control Inescapable Stress
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Test Day: Escape latencies in a shuttle box:Time how long it takes to escape a mild foot shock by “shuttling” from one side of the box to the other and
back again. A short time (small number) is better!
True or False:
“Exercise can “burn off” natural chemicals that build up during
stress”
(Quote from pamphlet in Recreation Center)
Other Strategies toCope with Stress
Voluntary exercise in rats decreases the
release of ACTH and corticosterone
following low intensity stress
(Dr. Heidi Day)
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Hypothalamus
RUN
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Voluntary exercise facilitates adaptation to stress(Dr. Serge Campeau)
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Cort
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Run-No Stress
Run-Stress
Sed-No Stress
Sed-Stress*
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Voluntary exercise prevents the learned helplessness seen after inescapable stress in rats
Dr. Monika Fleshner (IPHY)
Some People Who Study “Stress” on Campus
Heidi Day (Psych)Limbic System ResponsesEffect of Exercise
Serge Campeau (Psych)Neural Circuits in Psychological StressStress Adaptation; Exercise
Steve Maier (Psych)Coping: Uncontrollable vs. Controllable StressDrug Abuse and Stress
Bob Spencer (Psych)Glucocorticoid Negative FeedbackHPA axis
Monika Fleshner (IPHY)Exercise and the Stress Resistant BrainExercise and Immunity
GET INVOLVED!! BURST, UROP, URAP, Work Study
Other things you can do to decrease the negative effects of stress
Imagine happy or peaceful scenes; Meditate
Healthy eating
Relaxation, Meditation, Biofeedback
Social interaction, optimism, humor
DOLPHIN STRESS TEST
It's a simple test designed to indicate whether people have too much stress in their life.
It's a picture of two dolphins. The two dolphins appear normal when viewed by a stress-free individual. This test is not accurate enough to pick up mild stress levels.
It's quite simple. If there is anything that appears different about the dolphins (ignore the fact of the slight color differences) it is often an indication of potential stress related problems. Differences, if any, may also indicate the source of your stress.
Sit upright and viewing the screen head-on, take a deep breath, breathe out and then open the picture and look directly at it.
If there is anything out of the ordinary then you should consider taking things a little easier..
Dolphin Stress Test
If you see anything other than two dolphins, take a few days off and unwind.........
If you see anything other than two dolphins, take a few days off and unwind...