Lecture 12 - Anxiety

Question 1

Define stress

Answer 1

Physiological and psychological state of disruption caused by presence of unarticulated disruptive or stimulating event

Question 2

Define a stressor

Answer 2

Factors or events real or imagined elicit a response of stress disorder

Question 3

Define Eustress

Answer 3

Stress adds positive enhancing dimension to quality of life

Question 4

Define distress

Answer 4

Stress diminishes quality of life commonly associated with disease maladaption and illness

Question 5

What are the potential responses to stress

Answer 5

Physiological
Cognitive
Emotional
Behavioural

Question 6

What did Canon 1914 investigate with stress

Answer 6

Animals responses
Fight or flight
Danger creates physiological reactions prepare organisms to respond
Adaptive evolutionary

Question 7

Pros of fight or flight response

Answer 7

Help respond more quickly to threat

Question 8

Negatives of fight or flight response

Answer 8

Harmful to health of prolonged

Question 9

External physiological responses to threat

Answer 9

Pupils dilate

Hairs on end - more sensitive environment

Question 10

Outline changes to heart in physiological responses to threat

Answer 10

Heart rate increase
Artistries construct maximise pressure
Veins open out ease return blood to heart

Question 11

Outline respiratory system changes to physiological responses to threat

Answer 11

Respiratory system lungs throat and nostrils open up
Breathing speeding up get more air in system
Increase blood flow be reoxygenated
Blood carried oxygen to muscles allowing them work harder

Question 12

Outline creating instant energy as physiological response to threat

Answer 12

Fat from fatty cells
Glucose from liver
Metabolised to create instant energy

Question 13

Outline kidney and digestive system physiological responses to threat

Answer 13

Blood vessels to kidney and digestive system constrict
Shutting down systems not essential
Reduction saliva in mouth

Question 14

Outline bowels and bladder physiological response to threat

Answer 14

Bowles and bladder may open out to reduce need for other internal actions

Question 15

Outline the skins physiological response to threat

Answer 15

Blood vessels to skin construct reducing any potential blood loss
Sweat glands open providing external cooling liquid

Question 16

Outline endorphins and physiological response to threat

Answer 16

Endorphins are released

Reduce pain

Question 17

Define stress hormone Glucocorticoid

Answer 17

Group hormones of adrenal cortex
Kidney important in protein and carbohydrate metabolism

Secreted especially in times of stress

Question 18

Define stress hormone Corricotropin-releasing Hormone CRH

Answer 18

Hypothalamic hormone stimulates anterior pituitary gland

Secretes ACTH
Adrenocorticotopic hormone

Question 19

Define stress hormone Adrenocorticotropic hormone ACTH

Answer 19

Hormone released by anterior pituitary gland

Response to CRH

Stimulates adrenal cortex to produce glucocorticoids

Question 20

Outline Hypothalamic Pituitary Adrenocortical System

Answer 20

1. CRF released response environmental stressor (uncertainty arousal)
2. ACTH released by pituitary
3. Releases corticosteroids
4. Stressor terminated negative feedback occurs shutting down HPA Axis

Question 21

Flow diagram of HPA Axis Response

Answer 21

Stress ->
CRF ->
Pituitary ->
ACTH ->
Adrenals ->
Cortisol

Question 22

What did Hans Selye hope to discover

Answer 22

Proposed model explain how stress affects the body

Hoping discover new sex hormone
Injected rats with ovarian hormone extract

Question 23

What 3 effects did Hans Selye Identify

Answer 23

1. Enlargement of adrenal cortex
2. Shrinking of thymus gland
3. Bleeding ulcers

Question 24

What did Hans Selye conclude

Answer 24

Injected other fluids found same reaction
Same reaction to electric shock, surgical trauma and immobilisation restraint

Body’s reaction to stress was general

Question 25

What 3 stages did Selyes Adaption Syndrome suggest

Answer 25

1. Alarm reaction
2. Resistance
3. Exhaustion

Question 26

Outline stage 1 Alarm Reaction in Selyes General Adaption Syndrome

Answer 26

Physical or mental trauma trigger immediate reactions combat stress
Immune system initially depressed
Normal levels resistance lowered more susceptible infection/disease
Stress not severe or long we recover rapidly

Periods stress - exams more likely have cold
Environment and how we interpret interacts with immune system

Question 27

Outline stage 2 Resistance in Selyes General Adaption Syndrome

Answer 27

Adapt to stress 
More resistant to illness 
Immune system becomes over activate keep up with demands 
Begin to cope 
If stress persists leads to stage 3

Question 28

Outline stage 3 Exhaustion in Selyes General Adaption Syndrome

Answer 28

Body not able to maintain homeostasis and long term resistance needed combat stress
Develop sudden drop in resistance level
No one experienced exactly same resistance and tolerance to stress
Everyone’s immunity collapses following prolonged stress reactions
Life sustaining mechanisms slow down organ systems break down
“Diseases of adaptation”

Question 29

Outline strengths of Selyes Model

Answer 29

General theory variety of stressors

Physiological and environmental interaction

Physiological mechanism for relationship between stress and illness

Question 30

Outline weaknesses of Selyes Model

Answer 30

Limited role psychological factors

Assumes responses uniform - variances in individuals

Considers stress as an outcome

Question 31

Define anxiety

Answer 31

Diffuse unpleasant vague sense apprehension often accompanied by autonomic symptoms

Distinguishable from fear

Question 32

Define state anxiety

Answer 32

Experienced at particular moment increased by anxiogenic stimulus

Question 33

Define trait anxiety

Answer 33

Enduring feature of individual doesn’t vary from moment to moment

Question 34

What are the 8 subtypes of clinical anxiety the DSM identifies

Answer 34

Panic disorder 
Agoraphobia - open spaces 
Social phobia
Simple phobia 
OCD
PTSD
GAD 
Unspecified

Question 35

Outline Gray 2000 Behavioural Inhibition System SNRI anxiety drugs counteract behavioural effects of 3 classes of stimuli

Answer 35

1. Stimuli associated with punishment
2. Stimuli associated omission expected reward
3. Novel stimuli

Question 36

What behavioural effects did Gray Behavioural Inhibition System Identity

Answer 36

1. Inhibition of ongoing behaviour
2. Increased attention to environmental stimuli
3. Increased level of arousal

Critical cite anti anxiety action if limbic system and septic hippocampal system

Question 37

Where does evidence for Grays Behavioural Inhibition System come from

Answer 37

Animal models
Stress increases activity both these pathways
Reversed by anxiolytic drugs
Destruction pathways by lesions rise to Behavioural changes seen after anxiolytics (drugs reduce anxiety)

Question 38

What comparisons does Gray Behavioural Inhibition System perform

Answer 38

Whole system compares actual with expected stimuli
If match functions
Of mismatch or advertise takes direct control over behaviour and outlets BIS operated

Question 39

What is the phobia involved in OCD

Answer 39

Inhibition of motor programme

Question 40

How do we know amygdala involved in fear based emotions

Answer 40

Woman with amygdala damage cannot represent fear accurately
Asked draw fear she drew neural baby picture
Couldn’t conceptualise fear

Question 41

Outline amygdala and lateral hypothalamus

Answer 41

Sympathetic involved increasing heart rate blood pressure and paleness

Question 42

Outline amygdala and dorsal motor nucleus of vagus

Answer 42

Parasympathetic activation
Ulcers
Urination and defecation

Question 43

Outline amygdala and Parabrachial nucleus

Answer 43

Increased respiration

Question 44

Outline amygdala and VTA

Answer 44

Behavioural arousal

Dopamine

Question 45

Outline amygdala and Locus Coeruleus

Answer 45

Increased vigilance norepinephrine

Question 46

Outline amygdala and dorsolateral tegmental nucleus

Answer 46

Cortical activation

Acetylcholine

Question 47

Outline amygdala and nucleus reticularis Pontis causalis

Answer 47

Augmented startle response

Question 48

Outline amygdala and Periaqueductal gray matter

Answer 48

Behaviour arrest

Freezing

Question 49

Outline amygdala and Trigeminal facial motor nuclei

Answer 49

Facial expressions fear

Question 50

Outline amygdala and Paraventricular nucleus

Answer 50

ACTH glucocorticoid secretion

Question 51

Outline amygdala and Nucleus Basalis

Answer 51

Cortical activation

Question 52

Outline serotonin receptor subtypes

Answer 52

Important stress responses
5HT2 - antipsychotic drugs
5HT3 - bind and block sickness associated chemo

Anxiety most concerned 5HT1 receptor

Question 53

Outline 5HT1a receptor distribution

Answer 53

Significantly greater activity in right amygdala of different genotypes
Short vs long alleles
For serotonin transporter

Question 54

Outline experiment A for testing serotonin Receptor 1a in anxiety

Answer 54

Emotion task

Viewed trio faces and selected 1 of 2 faces expressed same emotion as target face

Question 55

Outline experiment B for testing serotonin Receptor 1a in anxiety

Answer 55

During Sensorimotor control subjects viewed trio simple geometric shapes
Selected 1 of 2 shapes matched target shape

Question 56

Findings of experiment A and B on Serotonin Transporter 1a

Answer 56

Short allele coding serpentine transporter higher response identifying fearful emotion compared long allele

Question 57

Outline genetics and anxiety

Answer 57

Anxiety related disorders interaction between animal Model aetiology of disease and biology of psychological trait

Phenotype inferred rather than observed

Question 58

Percentage variance in psychiatric disorders attributable to heritable factors

Answer 58

GAD social phobia and panic disorder relatively low compared to Schiz or Huntington’s

Mediated developmentally is neurochemically

Question 59

Outline Gross and Hen 2004 measuring size of hippocampus in twins

Answer 59

If develop a typical brain and typical hippocampus - experience stress or trauma risk PTSD low

Small hippocampus - experience trauma risk developing PTSD high. But twin doesn’t experience trauma low.
Inbuilt protection against trauma

Question 60

How can our genotype protect against poor postnatal environment

Answer 60

Cross fostering studies
Offspring low licking and grooming parents raised by high licking mothers less prone anxiety

Offspring of high licking mothers raised low licking and grooming mothers no increased tendency have anxiety

Question 61

What do the findings of the cross fostering licking grooming mothers tell us

Answer 61

Offspring low licking raised by high licking indicates effect mediated by postnatal maternal environment

Specific factors inherited by high licking grooming offspring protect them from effects being mothered by low licking and grooming mothers