Neuro

Question 1

All-or-none law

Answer 1

principle that once an action potential is triggered in an axon, it is propagated, without becoming smaller, to the end of the axon.

Question 2

Ion transporter

Answer 2

a special protein molecule located in the membrane of a cell; actively transports ions into or out of the cell

Question 3

Ion channel

Answer 3

special protein molecule located in the membrane of a cell; controls the entry/exit of particular ions

Question 4

Ion

Answer 4

positively/negatively charged particle; produced when many substances dissolve in water

Question 5

Resting potential

Answer 5

membrane potential of a neuron when it is not producing an action potential

Question 6

Action potential

Answer 6

sudden reversal of the electrical charge across the cell membrane: from the soma to its terminal buttons, causes the release of a neurotransmitter

Question 7

Neurotransmitter

Answer 7

chemical released by terminal buttons that causes the postsynaptic neuron to be excited or inhibited

Question 8

Myelin sheath

Answer 8

insulating material that encases most axons
prevents depolarisation and speeds up propagation of AP

Question 9

Terminal button

Answer 9

the rounded spelling at the end of the axon, releases neurotransmitter

Question 10

Axon

Answer 10

long thin part of a neuron attached to the soma, divided into a few/many branches ending in terminal buttons

Question 11

Soma

Answer 11

cell body, largest part of neuron

Question 12

Dendrite

Answer 12

treelike part of neuron on which other neurons form synapses

Question 13

Glia

Answer 13

cells of the CNS that provide support for neurons and supply them with some essential chemicals

Question 14

Neurons

Answer 14

neural cell that consists of a cell body with dendrites and an axon whose branches end in terminal buttons that synapse with muscle fibres, gland cells or other neurons

Question 15

Nerves

Answer 15

bundles of many thousands of individual fibres wrapped with tough membrane, transmit messages

Question 16

Wrinkled cortex

Answer 16

bulges (gyri) ang grooves (fissures) - more complex brains require a larger cerebral cortex, these increase surface area

Question 17

Cerebral ventricles

Answer 17

hollow, fluid-filled chambers in the brain, produce CSF

Question 18

Cerebral cortex

Answer 18

thin layer of tissue (grey matter) which contains billions of neural cells. Where perceptions take place, memories are stored, plans are formulated and executed.

These cells are connected to other parts of the brain through bundles of nerve fibres called white matter

Question 19

Blood-brain barrier

Answer 19

Capillaries in the brain do not have openings, unlike ones on the rest of the body, to protect the brain from chemical assault

Not perfect, toxic chemicals sometimes still make their way into the brain

Question 20

Protection of NS

Answer 20

Spinal cord runs through the middle of the spinal column - a stack of hollow bones called the vertebrae

Brain and spinal cord enclosed by a three-layered set of membranes known as the meninges

Brain and spinal cord doesn’t not touch skull/vertebrae: floats in cerebrospinal fluid (CSF)

Question 21

Cerebrum

Answer 21

More recently evolved
Perception, memories and behaviours

Question 22

Cerebellum

Answer 22

Attached to back of brain stem
Control and coordinate movements; especially rapid, skilled movements (includes learned ones)

Question 23

Brain stem

Answer 23

Most primitive region of brain - controls physiological functions and automatic behaviours
Some animals, such as amphibians, only have a brain stem and a simple cerebellum

Question 24

3 major functions of the brain

Answer 24

1. Controlling behaviour
2. Processing and retaining the information we receive from the environment

3.Regulating the body’s physiological processes

Question 25

What does the brain control?

Answer 25

muscles, glands and internal organs

Question 26

How does info from the rest of the body reaches the spinal cord and the brain?

Answer 26

spinal nerves

Question 27

How does info from head/neck region reach the brain?

Answer 27

cranial nerves

Question 28

Sensory neuron

Answer 28

detects changes in the external/internal environment and sends info about this to CNS

Question 29

Motor neuron

Answer 29

has terminal buttons that form synapses with muscle fibres.

an action potential that travels down its axon will cause the muscle to twitch

Question 30

Synapse

Answer 30

junction between the terminal button of one neuron and the membrane of a muscle fibre, gland or other neuron.
neurons communicate using chemical transmission

Question 31

presynaptic neuron

Answer 31

neuron with terminal buttons that form synapses with and excite/inhibit another neuron

Question 32

postsynaptic neuron

Answer 32

is excited or inhibited by another neuron’s terminal buttons

Question 33

neurotransmitter receptor

Answer 33

special protein molecule located in the membrane of the postsynaptic neuron that responds to molecules of the neurotransmitter

Question 34

How do receptors produce excitatory/inhibitory effects

Answer 34

open ion channels

excitatory synapse: permit NA ions to enter post

inhibitory synapse: permit K ions to leave

Question 35

Synaptic vesicles

Answer 35

bubbles of membrane in terminal buttons

contain molecules of a neurotransmitter

Question 36

Synaptic cleft

Answer 36

fluid-filled gap between pre and post synaptic membranes

Question 37

Where do terminal buttons release neurotransmitters?

Answer 37

synaptic cleft

Question 38

Reuptake

Answer 38

molecules of the neurotransmitter that have been released in cleft are quickly taken up again so that it only has a short time to stimulate the postsynaptic receptors

Question 39

How do drugs impact synaptic transmission?

Answer 39

stimulate/inhibit release of neurotransmitters

mimic the effects of neurotransmitters

block effects

interfere with reuptake - increases the effect of neurotransmitter

Question 40

Drugs and postsynaptic receptors

Answer 40

Stimulate: stimulates receptors

Block: bind with receptor but doesn’t stimulate it, inhibits synaptic transmission

Question 41

Glutamate

Answer 41

important excitatory neurotransmitter in brain and spinal cord

Question 42

GABA

Answer 42

important inhibitory neurotransmitter in brain

Question 43

Acetylcholine

Answer 43

neurotransmitter: responsible for muscular contraction, activates cerebral cortex, controls REM sleep, controls hippocampus

Question 44

barbiturate

Answer 44

drug that causes sedation

Question 45

benzodiazepine

Answer 45

class of drug having anxiolytic effects (e.g. diazepam - valium)

Question 46

Neostigmine

Answer 46

drug that enhances effects of ACh by blocking the enzyme that usually destroys it

Question 47

nicotine

Answer 47

binds andf stimulate ACh receptors, mimicking the effects

Question 48

monoamine

Answer 48

category of neurotransmitters that includes dopamine, noradrenaline and serotonin

Question 49

Dopamine

Answer 49

movement, attention, learning and reinforcing the effects of drugs that people tend to abuse,

Question 50

What drugs inhibit the reuptake of dopamine?

Answer 50

Amphetamine and cocaine

Question 51

Noradrenaline

Answer 51

cause an increase in vigilance, controls REM sleep

Question 52

Serotonin

Answer 52

regulation of mood, control of eating/sleep/arousal and regulation of pain, suppresses risky behaviours

Question 53

Peptides

Answer 53

category of neurotransmitters and neuromodulators that consist of two or more amino acids, linked by peptide bonds

Question 54

what are some opiates?

Answer 54

Opium, morphine and heroin

Question 55

what effect do endogenous opioids have when they stimulate certain receptors in the brain

Answer 55

decreased sensitivity to pain and a tendency to persist in ongoing behaviour

Question 56

Brain lesions

Answer 56

Drill hole into skull and insert wire/metal tube to either use electricity to produce heat and destroy a small portion the brain or insert a chemical that over stimulates neurons and kills them.

Question 57

CNS

Answer 57

central nervous system - brain and spinal cord

Question 58

PNS

Answer 58

Peripheral Nervous system - nerves, ANS, ENS

Question 59

ANS

Answer 59

autonomic NS - controls non-voluntary bodily functions (4Fs etc)
uses acetylcholine and noradrenaline

Question 60

What are the two branches of the autonomic nervous system?

Answer 60

Sympathetic NS: for action
Parasympathetic NS: for rest and recuperation

Question 61

ENS

Answer 61

1/2 billion neurons located in the wall of gastrointestinal tract
interacts with brain vis symp and para NS but can function on its own
control digestive activity

Question 62

Meninges

Answer 62

flexible sheet made of 3 membranes between bone and nervous tissue
1. Dura mater: tough + thick
2. Arachnoid membrane: spongy, filled wth CSF and blood vessels, cushioning
3. Pia mater: thin membrane against brain

Question 63

Spinal cord

Answer 63

interface between brain and PNS
connected to sensory, motor, autonomic nerves
Controls some movement like spinal reflexes

Question 64

Cerebellum damage

Answer 64

affect walking, speech

Question 65

Brain stem damage

Answer 65

coma, death

Question 66

Thalamus

Answer 66

sensory relay to cortex - smell doesnt go through it

Question 67

Hypothalamus

Answer 67

hormonal regulation and motivational control

Question 68

Limbic system

Answer 68

control of emotion and memory

Question 69

Basal Ganglia

Answer 69

Action and thought, offline action

Question 70

Corpus Callosum

Answer 70

connects the 2 hemispheres of the brain

Question 71

Vertebrates

Answer 71

Separation between PNS and CNS
There is an increase in forebrain in animals that exhibit more complex behaviour and neocortex in mammals

Question 72

Resting potential

Answer 72

when a neuron is not actively transmitting a nerve impulse
inside is more negatively charged than the outside, maintained by sodium potassium pumps.

Question 73

Refractory period

Answer 73

the time after an action potential is generated, it cannot produce a new AP because all sodium channels are already opened/being opening at maximum speed

Question 74

Explain why not all stimuli generate an action potential

Answer 74

It might be in the refractory period and not enough gates are opening to reach the threshold level

Question 75

Opiates

Answer 75

Mimic brain’s opioid NTs

Question 76

Cocaine/amphetamines/ecstasy

Answer 76

Promot transmission of main monoamines

Question 77

Caffeine

Answer 77

blocks adenosine receptors

Question 78

Antidepressant drugs

Answer 78

enhance serotonin and noradrenaline transmission by block reuptake

Question 79

Most anti-schizophrenic drugs…

Answer 79

block dopamine

Question 80

Agnostic Drug

Answer 80

Activates certain receptors and opens ion channels
deactivates enzyme in the synapse
blocks reuptake
promotes NT release

Question 81

Antagonistic Drug

Answer 81

a chemical substance that binds to and blocks the activation of certain receptors, preventing a biological response

Question 82

Transcranial Magnetic Stimulation (TMS)

Answer 82

magnetic pulse is sent that depolarises neurons
discovers what area is roughly responsible for a certain function

Question 83

Electrical Stimulation (EBS)

Answer 83

Microinjection into specific region in the brain (drugs - inhibit)

Question 84

Single-cell recording

Answer 84

electrode implanted in brain that record output from the brain
more specific

Question 85

Electroencephalography (EEG)

Answer 85

electrodes placed on scalp that record electrical fields from the brain
not precise/weak

Question 86

CT scan

Answer 86

computerised tomography - uses xray images to represent the brain

Question 87

Positron Emission Tomography (PET)

Answer 87

Radioactive-labelled oxygen (or glucose) - radiotracers are injected and emits signals that the PET scan detects where this is happening in the brain (3D)
measures changes in oxygen consumption
good spatial resolution, bad temporal resolution

Question 88

Magnetic Resonance Imaging (MRI)

Answer 88

gets hydrogen atoms in the brain to align by bombarding it with high frequency radio waves - identifies brain tissue and creates 2D image

Question 89

Functional Magnetic Resonance Imaging (fMRI)

Answer 89

measures changes in O2 consumption in the brain to indicate what regions are active - good spatial resolution (3D)

Question 90

Magnetoencephalography (MEG)

Answer 90

detects a small amount of magnetic field and creates a 3d reconstruction of electrical activity to form a functional map of the brain - expensive and difficult

Question 91

The regulation of feeding

Answer 91

Hungry > release ghrelin > tells brain we are hungry > behaviour

Question 92

Leptin

Answer 92

makes sure you arent hungry while you sleep

Question 93

What happens to our body when we dont sleep?

Answer 93

There is an increase in ghrelin and we become less responsive to insulin - obesity/diabetes
impacts symp NS - heart health

Question 94

what keeps us awake?

Answer 94

Noradrenaline neurons in Locus Coeruleus
Serotonin neurons in Raphe nuclei
Acetylcholine neurons in Pons

Question 95

what sends us to sleep?

Answer 95

superchiasmatic nucleus controls release of melatonin from pineal gland and has its own clock - signals night-time to the body

Question 96

What happens do adenosine when we sleep?

Answer 96

Since adenosine is a byproduct of ATP it builds up in the brain when we are awake. It increases sleepiness by inhibiting alertness centres and stimulating sleep centres. Adenosine is cleared when we sleep

Question 97

Preoptic area (anterior hypothalamus)

Answer 97

stimulation can induce sleep

Question 98

electrical activity when we are awake

Answer 98

high frequency, noisy

Question 99

electrical activity when we are asleep

Answer 99

slow, rhythmic patterns

Question 100

REM sleep

Answer 100

brain waves become desynchronised multiple times, rapid eye movement
REM sleep decreases over life span, alcohol reduces it too

Question 101

What causes REM sleep?

Answer 101

acetylcholine neurons in the Pons stimulate neurons in the thalamus which project to neural cortex. various areas in the brain become active.
suppression of frontal cortex allows us to turn these experiences into a story
we are paralysed

Question 102

what is the concept of reward?

Answer 102

motivation to engage in a particular behaviour

Question 103

neural mechanism of reward

Answer 103

dopamine axons in medial forebrain bundle contribute to rewarding effect of electrical stimulation

Question 104

What is hemispheric dominance?

Answer 104

Several higher functions are lateralised, one side of the brain is more dominant - most people’s left brain control speech and comprehension

Question 105

Damage to Broca’s area

Answer 105

at lower posterior of left frontal lobe
difficulties speaking but can generally understand speech - problems with writing not drawing

Question 106

Damage to Wernicke’s area

Answer 106

at posterior region of temporal lobe
causes problems with comprehension speech, cannot read - gibberish speech

Question 107

Split brain

Answer 107

remove corpus callosum so the seizure (electrical storm) doesn’t spread to the rest of the brain - may have problems with left and right,

Question 108

Hippocampus

Answer 108

memory structure in the brain

Question 109

Hippocampal amnesia

Answer 109

anterograde amnesia, deficit to leaning and memory

Question 110

Anterograde amnesia

Answer 110

Can remember old things but unable to retain or learn anything new

Question 111

Wernicke-Korsakoff’s Syndrome

Answer 111

Vitamin B1 deficiency in chronic alcoholics causing confusion, unusual movements and eye movements - can lead to Korsakoff’s psychosis (anterograde and retrograde amnesia).
damage to mammillary bodies in hypothal

Question 112

Alzheimer’s Disease

Answer 112

progressive degeneration of brain tissue
loss of new info > loss of distant memories > loss of facts and finally procedural skills
senile plaques
neuro-fibrillary tangles

Question 113

What is the difference between anterograde amnesia and retrograde amnesia?

Answer 113

anterograde amnesia refers to the inability to make new memories and remember new information and retrograde amnesia refers to the loss of old memories

Question 114

Frontal lobe

Answer 114

Planning and executive functions (memory selection as well)
Emotional expression
Problem solving
Memory
Language
Judgement
Sexual behaviours

Question 115

Parietal lobe

Answer 115

Sensory experiences are interpreted
Proprioception
Where things are in space, representing space for action

Question 116

Occipital lobe

Answer 116

Colour, Form, Motion

Question 117

Temporal lobe

Answer 117

Memory
Encoding
Processes auditory info
Taste
Recognise faces
Language

Question 118

3 parts of frontal lobe

Answer 118

Prefrontal - higher cognitive functions and personality
Motor
Premotor -

Question 119

Cortical Homunculus

Answer 119

Distorted representation of human body based on neurological map of the areas and proportions of the human brain dedicated to processing function

Question 120

What evidence supports the localisation of function?

Answer 120

Different areas of the brain use more energy/oxygen when they are presented with a specific stimulus -
Area in the brain where it responds to seeing faces, there would only be activity when people were shown a face as opposed to other images.

Question 121

What evidence is shown demonstrating that not every brain area is locked to a single function?

Answer 121

With mental imagery and visual imagery, multiple parts of the brain were activated or “shared”.
Brain regions can be responsible for multiple functions