Tools in Neuroscience Research (Exam 2) Flashcards
what are the common ways that we design an experiment in behavioural neuroscience to infer the relationship between brain and behaviour?
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induce a loss of function - deliberately disrupt functioning in brain, expect to see disruption in behaviour, understand behaviour
- lesions, turning off brain areas, using neurotransmitters
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induce a gain of function - increase functioning, expect to see increase in behaviour
- is trickier to turn up a brain area than to turn it down
- increase activity can cause things like seizures
- monitor behaviour and brain activity simultaneously - brain imaging is correlational
what is the main difficulty in conducting experiments in behavioural neuroscience?
sometimes a true experiment isn’t feasible - can’t always have a true independent variable
- studying people who have addictions, we can’t control who is addicted
what do we mean when we say there’s no one ideal method to answer a question in neuroscience?
usually have major trade-offs in terms of time-scales, spacial-scales, and overall noise/recording sensitivity
how is fMRI in terms of time and spacial scales?
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fMRI - records on the order of seconds, so every snapshot is capturing hundreds of thousands of action potentials
- action potentials are on the order of milliseconds
- fMRI operates at 1mm cubed voxels on the spacial scale - 13 million neurons
- pretty good resolution but are capturing activity of a million neurons in a voxel (doesn’t go small enough)
- but can capture larger scale behaviour and has good coverage across the brain
how is a single electrode in terms of time and spacial scales?
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single electrode - records extremely fast, have small (good) temporal resolution (sub-milliseconds)
- better at capturing action potentials and EPSPs
- at the spacial level they’re also good because they can measure single neurons
- downside is that we can’t infer what is happening in other neurons by just looking at one
what are the ways that we can record the brain’s electrical activity?
- single-cell recording
- electroencephalography (EEG)
- event-related potentials (ERP)
how do we use single-cell recordings?
- record with two electrodes, one on the inside of the cell (intracellular) and another on the outside (extracellular)
- can be challenging to put one electrode inside and another outside so close to each other in the brain
- we can compare one electrode to a “ground” (something neutral)
- if the electrode landed inside the cell - baseline is negative, it will flip into positive during AP
- very rare
- if the electrode landed outside the cell - baseline is positive, it will flip into negative during AP
how do we interpret single cell recordings of electrical brain activity?
using raster plots
- shows neuronal firing patterns in relation to specific behaviors
- each time a behavior occurs, it is marked in the brain recording
- events are synchronized to the time of the behavior, allowing clear comparisons of APs
- some neurons fire more around certain behaviors in one context but not in another
- helps identify which behaviors specific neurons are active for
what is the idea of population coding?
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population coding - many neurons encode for a complex stimuli
- no one neuron is responsible for a single behaviour
- some neurons fire more for certain things, but population coding is the norm
- take all recordings of context vs. situations and examine the pattern
what is convergence?
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convergence - when multiple neurons or sensory inputs send their signals to a single neuron
- integration allows the brain to combine information from various sources, enhancing the precision and reliability of the signal that reaches the target neuron
- crucial for sensory processing and decision making
what is divergence?
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divergence - where a single neuron’s signal is distributed to multiple neurons
- allows information to be shared broadly across different areas, enabling the same signal to have widespread effects
- crucial for motor control and sensory distribution
what is parallel processing?
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parallel processing - different brain areas processes different send signals in a bunch of different directions (divergence), process all at once, and then bring it all together (signal converges)
- way of getting around limitations of speed in our brain
what is the idea of distributed representations?
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distributed representations - visual world is represented in different parts of the brain
- another of way of saying population coding
what is the idea of the grandmother cell?
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grandmother cell - old idea that we cannot have a single cell that represents our grandmother, because…
- grandmother has complicated aspects (their appearance, their smell, memories associated with them)
- if we only had one cells and that cell was destroyed, then the whole memory of grandma would be gone
what is the halle berry neuron?
- a specific type of neuron discovered in the medial temporal lobe of the human brain
- neuron was found to fire selectively in response to images of actress Halle Berry, as well as the written or spoken name “Halle Berry.”
- suggests that the brain encodes abstract concepts, like a person’s identity, in specific neurons
- we also call them concept neurons
- neuron responds to a very specific concept or individual, not just visual features like shape or color
- high convergence in the brain, neuron integrates diverse inputs, like visual and auditory information, into a unified conceptual response
- important for re-activating patterns of activity across the brain