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What is an animal model?
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All Flashcards in Topic 2.1
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2.1.112 cards
What is an animal model?
Using an animal to study a process that also happens in humans, because of shared biology.
Why do psychologists use animal models?
Shared biology, tighter control, testing risky methods safely first, and faster life cycles.
What does it mean to 'generalise' findings?
To apply a result from one group (the animals) to another (humans) — done with caution.
Why generalise animal findings with caution?
Animals and humans share a lot but also differ, so a result may not fully transfer.
What are the 3Rs?
Replacement (use another method), Reduction (fewer animals), Refinement (less suffering).
What is Replacement?
Using a non-animal method instead of animals wherever possible, such as computer or cell studies.
What is Reduction?
Using as few animals as possible while still getting clear results.
What is Refinement?
Changing how animals are treated to reduce any pain or suffering.
What is a cost-benefit analysis in animal research?
Weighing the harm a study causes animals against the good it may do, before it is allowed.
Which concept does animal research most raise?
Responsibility — researchers have power over the animals and must protect their welfare.
One strength of animal research?
It allows tightly controlled studies and lets risky methods be tested safely before humans.
One ethical concern of animal research?
Animals can suffer and cannot give consent, so the harm may not always be justified.
2.1.212 cards
What is reductionism?
Explaining something complex by breaking it down into simpler parts.
What is biological reductionism?
Explaining behaviour using its simplest biological parts — brain areas, chemicals and genes.
What is holism?
Explaining behaviour by looking at the whole person and their situation, including thoughts, environment and culture.
Give an example of a reductionist explanation of low mood.
Explaining it only by low activity of a neurotransmitter and treating it with a medicine.
One strength of a reductionist approach?
It is precise and testable — a small biological question can be measured, which has led to real treatments.
One limitation of a reductionist approach?
It can oversimplify by ignoring thoughts, environment and culture, so one cause rarely explains a whole behaviour.
Which concept does reductionism most link to?
Perspective — it is one way of looking at behaviour, raising whether a single perspective is ever enough.
Why can reductionism be called deterministic?
Because it can treat behaviour as fixed by biology, reducing the sense of choice.
Why is a smaller question a strength of reductionism?
A smaller, biological question is easier to measure and test than a big, messy one.
Reductionism vs holism — one line each.
Reductionism: explain by the simplest parts. Holism: explain by the whole person and situation.
Is a reductionist explanation 'wrong'?
Not wrong — useful and precise, but often incomplete on its own.
When is reductionism most useful?
When combined with a more holistic view, so precision and the bigger picture work together.
2.1.310 cards
What is brain imaging?
Techniques that show the structure or activity of the living brain, such as fMRI, EEG and PET.
What does fMRI measure?
Blood flow to show which brain areas are active — good spatial detail (where).
What does EEG measure?
Electrical activity via the scalp — excellent timing (when), poor location.
What does PET use?
A radioactive tracer to map activity or chemicals; shows function but is invasive.
What is the where-vs-when trade-off?
fMRI is strong on location, weak on timing; EEG is the reverse.
One strength of brain imaging?
Objective, measurable data on the living brain, often non-invasive.
One limitation of brain imaging?
It shows activity correlated with a task, not that the area caused the behaviour.
Why is a scanner setting a limitation?
Lying still in a noisy scanner is artificial and unlike real-life behaviour.
Does a region 'lighting up' prove cause?
No — it shows correlation; reverse or third-variable explanations still apply.
Which concept does imaging link to?
Measurement — it makes invisible brain activity measurable.
2.1.412 cards
What is a chemical messenger?
A chemical the brain or body uses to carry a signal that affects behaviour — a neurotransmitter or a hormone.
What is a neurotransmitter?
A chemical that carries a signal across the synapse (gap) between two nerve cells.
What is a hormone?
A chemical messenger carried in the blood to affect the body; slower but longer-lasting than a neurotransmitter.
What is a synapse?
The tiny gap between two nerve cells that a neurotransmitter crosses.
What is a receptor?
A part of a cell that a chemical messenger fits into, like a key in a lock, to pass on the signal.
How does a neurotransmitter pass on its message?
It is released, crosses the synapse, and fits a receptor on the next cell; left-over is cleared by reuptake.
One example of a neurotransmitter and its behaviour?
Dopamine — released in the reward pathway, giving pleasure and making a behaviour more likely to repeat.
Which concept do chemical messengers most raise?
Causality — a chemical is linked to a behaviour, but a link is not proof that it causes the behaviour.
Why is a chemical-behaviour link often only a correlation?
The two occur together, but the behaviour could cause the chemical change, or a third factor could cause both.
How is a neurotransmitter's role measured?
Indirectly — e.g. by giving a drug that changes its level and watching behaviour, or by brain imaging.
One strength of the chemical-messenger explanation?
It is precise and testable, and has led to real treatments such as medicines for low mood.
One limitation of the chemical-messenger explanation?
Behaviour usually involves many chemicals, and a link is often only a correlation, not proof of cause.
2.1.510 cards
What is the diathesis-stress model?
A disorder results from a vulnerability (diathesis) combined with environmental stress (a trigger).
What is a diathesis?
A predisposition or vulnerability — genes, brain chemistry, early experience — that raises risk.
What is the 'stress' part?
A triggering life event or ongoing strain that can tip a vulnerable person over.
What causes the disorder in the model?
The interaction — stress exceeding what the person's vulnerability can withstand.
Why does the same event affect people differently?
Their vulnerabilities differ, so the stress crosses the threshold for some but not others.
Does more vulnerability need more or less stress to trigger?
Less — high vulnerability can be triggered by only mild stress.
One strength of the model?
It combines nature and nurture, avoiding a one-sided explanation.
One limitation of the model?
Vulnerability is hard to measure and the threshold for 'enough' stress is vague.
Is a diathesis destiny?
No — without enough stress, the disorder may never appear.
Which concept does it link to?
Causality — the cause is an interaction of vulnerability and stress.
2.1.612 cards
What is genetic inheritance (in behaviour)?
The idea that some behaviour is passed down in our genes, not only learned from the environment.
What is a gene?
A section of DNA that carries instructions passed from parents to children.
What is a genetic predisposition?
An inherited tendency that makes a behaviour or condition more likely — not certain.
What is concordance?
How often both twins share a trait — used to compare identical and non-identical twins.
How do twin studies suggest a genetic influence?
If identical twins (who share ~all genes) share a trait more than non-identical twins (~half), genes probably matter.
What is heritability?
How much of the difference in a trait across people is linked to genes. It is almost never 100%.
What is gene-environment interaction?
Genes and environment working together — an inherited tendency may only appear if life events trigger it.
Which concept do genetics most raise?
Causality — a trait can run in families, but genes, shared environment, or both could cause it.
Why is a family pattern only a correlation?
Families share both genes AND an environment, so the pattern does not prove genes are the cause.
One strength of the genetic explanation?
Twin and family studies give a clear way to estimate a genetic influence and explain traits that run in families.
One limitation of the genetic explanation?
Identical twins usually share an environment too, so genes and environment are hard to separate; a link is not proof of cause.
How do adoption studies help?
They compare children with their biological and adoptive families, helping separate genes from upbringing.
2.1.712 cards
What is localization of function?
The idea that specific brain areas carry out specific jobs or behaviours.
What is a lesion?
Damage to a part of the brain — often used as evidence for what that area does.
How does brain damage give evidence for localization?
If damage to a specific area is followed by the loss of a specific ability, that area was probably needed for it.
How does brain imaging give evidence for localization?
A scan can show which area becomes active during a task, pointing to where the job is done.
What is Broca's area linked to?
Producing fluent speech; damage can leave a person unable to speak fluently while still understanding others.
Which concept does localization most raise?
Causality — damage-then-loss suggests an area is needed for an ability, but activity alone is not proof of cause.
One strength of localization?
Brain damage and imaging give clear, testable links between an area and a function.
One limitation of localization?
Many behaviours use several areas together, so functions are often shared, not fixed to one spot.
Why can plasticity be a limitation for localization?
Because other areas can sometimes take over a job, so a function is not permanently fixed to one area.
Why are single case studies a limitation?
They are often one patient, so the finding may not generalise to everyone.
Name two brain areas and their jobs.
E.g. occipital lobe — vision; motor cortex — movement; amygdala — emotion/fear.
Does a scan showing activity prove an area causes a behaviour?
No — it shows the area is active and likely involved, not that it alone causes the behaviour.
2.1.812 cards
What is neuroplasticity?
The brain's ability to change and reorganise — connections grow and strengthen with experience, or reroute after damage.
What is synaptic strengthening?
When connections that are used repeatedly become stronger and faster.
What is pruning?
Removing connections that are rarely used — 'use it or lose it'.
How does neuroplasticity explain learning a skill?
Practising fires the same connections again and again, so they strengthen and the skill becomes automatic.
How does neuroplasticity explain recovery after injury?
Healthy areas can slowly take over some jobs of a damaged area, so lost abilities can partly return.
Which concept does neuroplasticity most illustrate?
Change — behaviour and the brain change together through experience, rather than being fixed.
One strength of neuroplasticity as an explanation?
Brain imaging can show real, physical changes after practice, and it explains recovery after injury.
One limitation of neuroplasticity as an explanation?
It is hard to prove practice alone caused the change, since many life factors change at once.
Why does age matter for neuroplasticity?
Plasticity tends to slow with age, so change is not equally easy for everyone.
Is all neuroplastic change helpful?
No — rewiring can also strengthen unhelpful habits, so change is not always positive.
What does 'use it or lose it' mean for the brain?
Connections you use are strengthened; connections you don't use are pruned away.
Does imaging a brain change tell us why it happened?
No — imaging shows that a change occurred, not exactly what caused it.
2.1.910 cards
What is neurotransmission?
How neurons pass signals using electrical impulses and chemical messengers across a synapse.
What are the four steps of neurotransmission?
Impulse fires, neurotransmitters release, bind to receptors, then are cleared (reuptake/breakdown).
What is a synapse?
The tiny gap between two neurons that neurotransmitters cross.
What is a receptor?
A site on the receiving neuron where a matching neurotransmitter binds.
What is reuptake?
Leftover neurotransmitter being taken back into the sending neuron, resetting the synapse.
How do many antidepressants work?
By blocking reuptake, so a neurotransmitter stays active in the synapse longer.
Signal within vs between neurons?
Within = electrical impulse; between = chemical neurotransmitters.
One strength of the neurotransmission explanation?
Precise, evidence-based, and explains how many medicines work.
One limitation of the explanation?
It can be reductionist and ignores thoughts, environment and social context.
Which concept does it link to?
Causality — chemical signals are a physical cause of behaviour.
Topic 2.1 study notes
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