Neural and hormonal mechanisms

    avatar
    Created by
    Samuel Bulmer

    Cards (21)

    • What is Aggression?
      An act carried out with the intention to harm another person physically or psychologically
    • What are the two types of aggression?
      • Proactive
      • Reactive
    • What is proactive aggression?
      • 'Cold blooded'
      • Planned method
    • What is reactive aggression?
      • 'Hot blooded'
      • Angry and impulsive
      • Accompanied by psychological arousal
    • What is the Limbic system?
      • Subcortical structures in the brain
      • Thought to be closely involved in regulating emotional behaviour including aggression
    • Which brain structures are apart of the limbic system?
      • Amygdala
      • Hypothalamus
      • Hippocampus
    • What does the Amygdala do?
      • Responsible for attaching emotional significance to sensory information
      • Responsible for how we respond to threats and challenges
      • How reactive it is has been shown to be a predictor of aggressive behaviour
      • Fight or Flight
    • What does the Hippocampus do?
      • Forms long term memories
      • Allows individuals to compare current threat conditions with past experiences
      • If a person is attacked the next time they are in a similar situation they are more likely to respond with aggression
    • What does the hypothalamus do?
      • Responsible for the regulation of the autonomic nervous system
      • ANS regulates responses to emotional circumstances
      • Damage or ANS not regulating = Inappropriate response to perceived threats
    • What do FMRI scans do?
      • Measures brain activity while someone is performing a task
      • Detects areas of the brain that are rich in oxygen and thus are active
    • Describe Gospic et al's study:
      • Participants had brain activity scanned using an FMRI whilst playing the ultimatum game
      • When responders were given an unfair offer there was a fast heightened reaction in the amygdala and offer was rejected
      • Can be seen as aggressive act towards a social provocation
      • Also it was found that when participants were given benzodiazepine, which reduces amygdala activity, rate of rejection dropped
    • What is Serotonin?
      • Neurotransmitter
      • Has a major influence on mood, impulsivity, and behaviour
      • Has an inhibitory effect on neurons
    • Describe the role of serotonin in aggression:
      • Reduced serotonin activity in the prefrontal cortex is related to reduced self control / disinhibition
      • Normal levels of serotonin inhibits activity in the orbitofrontal cortex - Leads to greater self control of behaviour
      • If serotonin levels are too low then the part of the brain becomes overactive - results in more impulsive behaviours including aggression
    • Supporting Evidence - Matti Virkkunen et al:
      • Compared levels of a serotonin breakdown product in the cerebrospinal fluid of violent impulsive and violent non-impulsive
      • Levels were significantly lower in the impulsive offenders
      • They also suffered more sleep irregularities
      • Disturbance in sleep pattern strongly implies disruption of serotonin function
    • Supporting Evidence - Berman et al:
      • Lab experiment
      • Participants given choice to give electric shocks to each other in response to a provocation
      • Independent groups design
      • Half the participants were given paroxetine (SSRI) and half were given a placebo
      • Paroxetine group gave fewer shocks than placebo group
      • Supporting the link between serotonin and aggression
      COUNTERPOINT - Highly controlled and in lab environment so unable to generalise findings
    • What is testosterone?
      • It is a hormone from the androgen group produced mainly in male testes (smaller amounts in women's ovaries)
      • Responsible for development of masculine features and associated with aggression
    • How does testosterone impact aggression?
      • 10 - 40x stronger in men than women
      • Has a role in regulating social behaviour
      • Higher than normal levels increases reactivity of the amygdala
    • Supporting Evidence for Testosterone - Wagner:
      • Castrated mice
      • Testosterone is the sex hormone in males so castration stops its production
      • Found that castrated mice became less aggressive
      • Aggression increased when the mice were injected with testosterone
    • Limitations of Wagner's study:
      • It was only carried out on animals so results can't be generalised to humans
    • Supporting Evidence for Testosterone - Dolan et al:
      • Found a positive correlation between testosterone levels and aggressive behaviours in a sample of 60 offenders in a UK max security hospital
      • The men had histories of impulsively violent behaviour and mostly suffered from personality disorders
    • limitation of research into testosterone:
      • Some researchers show other hormones as involved
      • Carre and Mehta
      • Dual-hormone hypothesis
      • High testosterone leads to aggression when only when cortisol is low
      • When cortisol is high it blocks testosterones influence on aggressive behaviour