Biopsychology: Revision Sheet (December 09)

Assessment: External exam: PSYB1: 13th January 2010, Wednesday 9am

Physiological psychology

Basic understanding of the structure and function of neurons

Types of neuron

•Motor neuron - To carry impulses from the central nervous system to the organs and muscles.

•Sensory neuron -To transport impulses from the peripheral nervous system to the brain and spinal cord.

•Relay neuron To receive impulses from sensory neurons and transfer them to motor neurons.

One difference in function between a motor neuron and a sensory neuron.

•The function of a motor neuron is to carry information from the central nervous system to the muscles/glands/effectors, whereas the function of a sensory neuron is to carry information from the sense organs to the central nervous system.

Synaptic Transmission

•Synapse: The junction between two neurons

  • Neurons do not actually touch each other, but rather there is a gap called a synapse through which the electrical impulse “jumps”

•Synaptic transmission: The transfer of an impulse from one neuron to another.

•Neurotransmitter – a chemical involved in synaptic transmission e.g. serotonin, dopamine, endorphin

  • Neurotransmitters can either increase or decrease the firing rate of the next neuron.
  • Neurotransmitters are known to have an effect on behaviour and mental processes
  • E.g. endorphins – reduce feelings of pain
  • Dopamine – involved in emotional arousal, and movement

Divisions of the nervous system

Localisation of function

•Localisation of function suggests that there are specific parts of the cerebral cortex which have specific functions

Methods used to identify areas of cortical specialisation

Keywords:

  • Temporal resolution refers to the precision of a measurement with respect to time.
  • Spatial resolution: The ability to sharply and clearly define the extent or shape of features within an image.
  • EEGs have good temporal resolution as they take readings every millisecond, but poor spatial resolution as they can only tell roughly where in the brain the electrical signals are originating from.
  • MRI, PET, & CAT scans have good spatial resolution but poor temporal resolution

Method / Description & What it measures / Evaluation
MRI
/ Areas of the brain which are most active need more blood. Blood contains haemoglobin, which contains iron, which is magnetic. Magnetic resonance will change as blood flow changes.
Measures blood flow in the brain, by magnetic resonance. / Positive
  • No harmful effects on patient or operator.
  • scans are non-invasive and therefore raise fewer ethical issues, eg less harm.
  • Good spatial resolution.
Negative
  • Poor temporal resolution.
  • Can not usually be used on people with pacemakers, or metal implants / metal fragments in the body. Can be uncomfortable due to loud noise, vibrations, and claustrophobic nature of the device - people with even mild claustrophobia are often unable to tolerate an MRI scan.

PET
/ Radioactive glucose is injected into the participant. The parts of the brain which are most active, use more glucose, and show on the scan. / Positive
  • Good spatial resolution
  • Non-invasive way of studying the brain.
Negative
  • Poor temporal resolution.
  • Need permission from ethics committees to inject radioactive material, although dose is very small.
  • Expensive and difficult to use.

EEG
/ Electrodes are placed on the scalp. The brain is believed to work through it’s electrical activity.
EEGs provide natural
measurements of brain activity,
Measures electrical activity in the cerebral cortex. / Positive
  • Good temporal resolution. Can record changes on a millisecond level. Very few other techniques have such a high temporal resolution.
  • Non-invasive.
  • EEG measures are less harmful than surgical procedures,
Negative
  • Poor spatial resolution. Limited anatomical specificity – can only detect when groups of neurons are firing, and not precisely where.

CAT scan
/ Measures tissue density
Lots of x-rays / Positive
  • Good spatial resolution
  • Non-invasive way of studying the brain.
Negative
  • Poor temporal resolution.
  • Dangerous x-ray radiation

Post mortem examination
/ Examination of brain after death / Positive
  • Useful for looking at the brain closely and in detail.
  • Post-mortem studies provide understanding of rare disorders;
  • Useful for studying the brains of people with specific psychological problems. e.g. schizophrenia, speech problems
Negative
  • Participant needs to die before the brain can be examined.

Neuros-urgery
/ Involves cutting, removing or damaging part of the brain and then observing the affects on behaviour.
Often used with animals. / Positive
Negative
  • Often used with animals – and this research may not be possible to generalise to humans.
  • Methodological – brain plasticity – removing one part of the brain may only show the performance of the rest of the brain, not the missing part;
  • lack of precision - the exact extent of damage to the brain may be difficult to assess; accuracy of neurosurgery;
  • Ethical – invasive exposure of the brain with neurosurgery,

Electrical stimulation of brain areas
/ Uses electricity to stimulated specific brain areas / Positive
  • Useful for determining localisation of function before brain surgery.
Negative
  • It is invasive. Involves removing skull, and is therefore dangerous.

Divisions of the autonomic nervous system

•sympathetic branch: prepares the body for action in threatening situations;

•parasympathetic branch. supports and restores normal body activity by conserving and storing energy.

•It also slows the activities of the body that have been increased by the sympathetic nervous system.

•Slows heart rate / increases digestion / constricts pupils, etc.

Adrenal glands and adrenaline

•The adrenal glands are stimulated to release adrenaline. This prepares the body for action in a stressful situation.

Fight or flight response

•In an emergency situation, the body is prepared for the possibility of defending or attacking (fight), or running away to safety (flight).

•eg increased heart rate, role of the ANS, accelerated heart rate, curtailing of digestion, increased respiration, increase in perspiration, release of glucose from the liver, pupil dilation, decrease in salivation, slowing of peristalsis, adrenaline release.

•e.g. If suddenly confronted by a vicious dog, you either defend yourself (fight) or run away (flight).

•An early evolutionary adaptation that is useful in dealing with physical threats

•Helps us deal with short-term problems that can be solved by fighting or running

•(Unfortunately, many of the threats we face in our society do not fall into these categories – hence can lead to stress related problems)

Genetics

•Genotype: A person’s genetic make-up, as represented by the genes on the 23 pairs of human chromosomes

•Phenotype: A person’s actual/observable characteristics that are determined by genetics and the environment. e.g. physical appearance, behavioural characteristics, personality.

•Genotype never changes; phenotype can change over time.

•Use an example to illustrate the difference between them.

•In relation to intelligence they may explain that an individual might have an intellectual potential (genotype) but they require environmental stimulus such as education for this to develop.

•PKU is an example of a disorder caused by a defective gene resulting in severe learning difficulties. However, if identified early, and treated with a special diet, individuals show normal levels of intelligence.

•Other example e.g. schizophrenia.

•Monozygotic (MZ) twins: Identical twins. Twins that share exactly the same genetic make-up because they develop from one fertilised egg that divides into two separate embryos. MZ twins have exactly the same genotype.

•Dizygotic (DZ) twins: Non-identical twins. Develop from two separate eggs that are fertilised by different sperm. DZ twins have 50% of their genes the same. (also referred to as fraternal twins)

•Concordance: The percentage likelihood that if one individual in a pair has a trait the other individual also has that trait.

Twin studies

•Look at concordance rate in MZ twins for a particular characteristic. This gives an indication as to how much the characteristic is due to genetics.

•A characteristic that is 100% due to genetics (e.g. blood type) would have a 100% concordance rate in MZ twins.

•Also identical twins raised together, and compare with fraternal twins.

•Compare concordance rates in MZ twins with concordance rate in DZ twins for a particular characteristic.

•If the characteristic has a higher concordance rate in MZ twins it indicates a genetic basis.

Family studies

•Investigate how much a characteristic runs in families

Adoption Studies

•Compare a trait or characteristic of an adopted child with their biological relative.

•This controls for environmental influences

•If a trait or characteristic is heritable, then children should show greater similarity to their biological parents than adopted parents. If concordance/ correlation/similarity for adopted children is higher with natural parents than adopted parents, then the trait is biological.

Gene Sequencing

•Use DNA analysis to investigate whether certain genes are associated with certain traits