Neuroanatomy

Question 1

What are the convoluted surfaces of ridges residing within the cerebral hemispheres?

Answer 1

Gyri

Question 2

What are the impression in the cerebral hemispheres?

Answer 2

Sulci

Question 3

What are the four cerebral lobes?

Answer 3

Temporal, parietal, occipital, and frontal

Question 4

What does the brainstem consist of?

Answer 4

Midbrain, pons and medulla

In descending order

Question 5

What is the cerebellum?

Answer 5

Hind brain structure, attached to brainstem

Coordinates voluntary movements including posture, balance, coordination and speech

Question 6

What is the role of the spinal cord?

Answer 6

Extends down from the medulla, conduit for neural transmission and coordinate reflex action

Question 7

What are unipolar neurones?

Answer 7

Consists of one extension from cell body (considered as single axonal projection)

Question 8

What are pseudo-unipolar neurones?

Answer 8

Single axonal protection that divides into two segments

Question 9

What are bipolar neurones?

Answer 9

Two projections from the cell body (axons and dendrons)

Question 10

What are multipolar neurones?

Answer 10

Neurones with multiple projections from the cell body, most prevalent neuronal type

Question 11

What are pyramidal cells?

Answer 11

Neurones with a pyramidal shape soma, two distinct dendritic trees.
Basal dendrites emerge from the base and the apical dendrites from the apex of the pyramidal cell body

Question 12

What are Purkinje and Golgi cells?

Answer 12

GABA neurones found in the cerebellum

Question 13

Where are Purkinje and Golgi cell located?

Answer 13

Cerebellum

Question 14

What are neurones?

Answer 14

Excitable cells fo the CNS, generate action potentials. Non-dividing cells contemporary elements suggestive of potential division

Question 15

What does heterogeneous morphology mean?

Answer 15

Variation in structural morphology of neurones.

Question 16

What is the soma?

Answer 16

Connects to dendrites, transmits electrical signals, to the neurone, and there axon sending information to adjacent neurones

Question 17

What does the soma contain?

Answer 17

Nucleus, Nissl granules and neurofilaments.

Question 18

What are Nissl granules?

Answer 18

Composed of rough endoplasmic reticulum and are polyribosomes

Question 19

What is the function of neurofilaments?

Answer 19

Express structural and transportation properties.

Question 20

What do axons contain?

Answer 20

Axoplasm

Question 21

Where do axons originate from?

Answer 21

Originate from the axon at the axon hillock

Question 22

What is there term referred to the axon projections?

Answer 22

Collaterals

Question 23

What is the function of axons?

Answer 23

Transmitting electrical signals to adjacent neurones/ effector cells

Question 24

What protein encapsulates axons?

Answer 24

Myelin

Question 25

Why is myelin useful?

Answer 25

Enhances electrical trnsmission through electrical insulation that stimulates saltatory conduction.

Question 26

What is present at the axon terminal?

Answer 26

Telodendria

Question 27

What are dendrites?

Answer 27

Highly branched cell body, that unmyelinated, receives signals from other neurones, and transmits electrical signals to the soma to the axon

Question 28

Which cells connect neuronal signalling and CNS vasculature?

Answer 28

Astrocytes

Question 29

What projections extend from the astrocyte soma and attach to the basement membrane?

Answer 29

Astrocyte end feet

Question 30

How do astrocytes enable bidirectional signalling between neurones and vasculature?

Answer 30

Processes extend form the cell bodies towards the neurones, and to the vasculature

Question 31

What are the three functions of astrocytes?

Answer 31

Maintenance of blood brain barrier
Cell repair
homeostasis

Question 32

How do astrocytes maintain the blood brain barrier?

Answer 32

Paracrine interaction with the endothelial cells and pericytes. Secrete classes of factors with either barrier promoting or barrier disrupting effects depending on neuronal signalling,

Question 33

How are astrocytes involved in cell repair?

Answer 33

Synthesis of neurotrophic factors (endogenous soluble proteins that support growth, survival and differentiation of neurones).

CNS damage = astrocytes occupy space to form glial scar

Question 34

How do astrocytes form glial scars?

Answer 34

Astrocyte proliferate and migrate to area of injury, undergo hypertrophy to develop thicker processes that aim to isolate the area

Question 35

What is the process of forming glial scars referred as?

Answer 35

Astrocytosis

Question 36

What are astrocytes involved in homeostasis?

Answer 36

Neurotransmitter removal and re-uptake. Express plasma membrane transporters (glutamate transporters for neurotransmitters GABA and glutamate)

Question 37

How do astrocytes maintain interstitial fluid?

Answer 37

Release lactate into fluid, neurones have limited energy stores.
Potassium ion concentration

Question 38

Which cells myelinated cells of the CNS?

Answer 38

Oligodendrocytes

Question 39

Describe the structure of oligodendrocytes?

Answer 39

Consists of numerous projections that form internodes of myeline.

One oligodendrocyte myelinates multiple axons , providing myelin sheath

Question 40

Which cells myelinate the PNS?

Answer 40

Schwann cells

Question 41

How do Schwann cells myeliate neurones?

Answer 41

Wrap itself around the axon repeatedly to form the myelin sheath. Therefore the myelin sheath consists of many layers of Schwann cell membranes.
One Schwann cell myelinates on corresponding axon.

Question 42

What are the two types of cells that are responsible for myelination?

Answer 42

Oligodendrocytes and Schwann cells

Question 43

Which CNS cells are responsible for immunological and perform analogous functions to macrophages?

Answer 43

Microglial cells

Question 44

What are the functions of microglial cells?

Answer 44

Analogous to macrophages, clearing of cellular debris and impaired neurones from nervous system by phagocytosis.

Question 45

Which ion are axons permeable to?

Answer 45

Potassium ions

Question 46

Which ions are axons impermeable to?

Answer 46

Sodium ions

Question 47

How is resting potential maintained?

Answer 47

Extracellular concentrations of ions greater than that of axoplasm

Sodium/potassium ion pump

NA/K ATPase uses ATP to move 3 Na out, and 2 K in into the axon
Lowering concentrations of sodium inside the cell, due to the relative impermeability of the membrane to sodium ions, they cannot diffuse in
Potassium ions are actively moved into the axon by the pump, but then passively diffuse out again along the concentration gradient through open potassium ion channels.
Inside cell is negatively charged relative to outside- The membrane is polarised. (-70mV). The electrical gradient will put K+ back into the cell, however concentration gradient cancels tendency.

Question 48

Describe the concentration gradient for sodium and chloride ions?

Answer 48

Extracellular concentrations of sodium and chloride ions are relatively greater than intracellular concentrations

Question 49

What is the net charge of a resting neurone?

Answer 49

Negatively charged (-70mV)

Question 50

How is an action potential triggered?

Answer 50

Impulse passes the threshold

Question 51

What happens to the permeability of the axon membrane to sodium ions upon action potential?

Answer 51

Increases. Voltage gated sodium ion channels open, allowing sodium ions to rapidly diffuse down their concentration and electrochemical gradient (Sodium ion influx)

Question 52

What happens due to sodium influx within the neurone?

Answer 52

Potential difference across the membrane is reverse and depolarised. The cell internally becomes positive with respect to the outside
Region of positive charge causes nearby sodium ion channels to open. Potential difference is +40mV (Action potential)

Question 53

What occurs during the end of depolarisation?

Answer 53

Sodium ion channels close to excess sodium ions. Sodium ions rapidly pumped out by active sodium pump.

Permeability of potassium ions temporarily increases.

Voltage-dependent ion channels open

Question 54

How are neurones repolarised?

Answer 54

Potassium ions diffuse out of axon down their concentration and electrochemical gradients, attached to the negative charge on the outside.

membrane becomes hyperpolarised

Question 55

Why does the membrane become hyper polarised?

Answer 55

Voltage gated potassium ion channels close slowly, potassium ions diffuse to restore resting potential

Question 56

What is an all or nothing response?

Answer 56

Once the threshold has been reached the action potential occurs. Size of the action potential is always the same

Question 57

What is a refractory period?

Answer 57

Recovery time for the axon.
Time it takes for an axon to recover after an action potential, for ionic movements to depolarise the membrane and restore resting potential

Question 58

What is the absolute refractory period?

Answer 58

After action potential, the fibre cannot re-stimulate sodium ion channels are completely blocked, and the restoring potential has not been restored

Question 59

What is the relative refractory period?

Answer 59

There is a period the axon may be stimulated, however will only respond to stronger stimuli/

Voltage dependent potassium ion channels are still open,

Question 60

What is the importance of the refractory period?

Answer 60

limits the impulse rate, only flow in one direction

Question 61

Where do action potential occur?

Answer 61

Nodes of Ranvier

Question 62

What are the Nodes of Ranvier?

Answer 62

Ions can only pass in and out of the axon freely , there are unmyelinated regions

Question 63

What happens at the synaptic knob upon action potential arrival?

Answer 63

Increases the permeability of the presynaptic membrane to calcium ions as calcium ion channels open up

Question 64

What happens when calcium ion channels open within the presynaptic membrane?

Answer 64

Calcium ion influx into the synoptic knob across electrochemical and concentration gradients causes the synaptic vesicles to fuse with the presynaptic membrane

Question 65

What is contained within the presynaptic vesicles?

Answer 65

Approximately 3000 neurotransmitters

Question 66

Upon presynaptic vesicle fusion with membrane, what occurs?

Answer 66

Exocytosis of neutrotransmitter into the synaptic cleft, diffusion across the gap, attaching onto postsynaptic receptor sites in the postsynaptic membrane of the recipient neurone

Question 67

What occurs upon arrival of neurotransmitter within the post-synaptic membrane?

Answer 67

Opening of sodium ion channels in membrane, influx of sodium ions causing a change in the potential difference across membrane and EPSP to be setup

Question 68

How is an action potential triggered within the post-synaptic membrane?

Answer 68

Sufficient number of EPSPs, positive charge in the postsynaptic cell exceeds the threshold level, and an action potential is set up which travels along the post synaptic neurone

Question 69

What is an IPSP?

Answer 69

Influx of negative ions, reducing the tendency of the stimulation for action potential along the post synaptic neurone

Question 70

How are synapses controlled?

Answer 70

Enzyme catalyses the hydrolysis of the neurotransmitter within the synaptic cleft, re-emptying the post synaptic receptors.

Question 71

What is the major neurotransmitter secreted into the synaptic cleft?

Answer 71

Acetylcholine

Question 72

How is acetylcholine synthesised?

Answer 72

Requires ATP produced by the present mitochondria within the synaptic knob and packaged into presynaptic vesicles

Question 73

Which nerves use acetylcholine neurotransmitter?

Answer 73

Parasympathetic
and Sympathetic preganglionic

Cholinergic nerves

Question 74

Which enzyme hydrolyses and removes acetylcholine from the synaptic cleft?

Answer 74

Acetylcholineesterases

Question 75

What constituents form acetyl choline?

Answer 75

Choline and acetic acid

Question 76

Where is acetylcholinesterase located?

Answer 76

In post synaptic membrane

Question 77

What is an axeodendritic synapse?

Answer 77

Connection between presynaptic terminal –> neuronal dendrite

Question 78

What is an axiomatic synapse?

Answer 78

Connection between presynaptic terminal –> Neuronal soma

Question 79

What is an axoaxonic synapse?

Answer 79

Connection between presynaptic terminal –> neuronal axon

Question 80

What occurs at a neuromuscular junction?

Answer 80

Specialised structure incorporating axon terminal and muscle membrane, enabling unidirectional chemical communication between peripheral nerve and muscle. Paracrine: Neurotransmitter release.

Question 81

which type of receptors do ACh bind onto?

Answer 81

Nicotinic receptors

Question 82

What is a mini endplate potential?

Answer 82

Occurs from one acetylcholine molecule (released in quanta).
Summation is required of endplate potentials to stimulate an action potential within the postsynaptic neurone

Question 83

How are action potentials transmitted into a muscle cell?

Answer 83

t-tubules

Question 84

What is the function of the sarcoplasmic reticulum?

Answer 84

Releases calcium ions from ca storage

Question 85

What is the mechanism of nicotine?

Answer 85

Mimics effects of acetylcholine and bings to acetylcholine receptor in post-synaptic membrane known as nicotinic receptors (Due to complimentary shape)

Nicotine triggers an action potential in postsynaptic neurones, receptor means unresponsive to more stimulation

Question 86

What are the drug effects on increasing the response?

Answer 86

Increased the amount of neurotransmitter produced

Increases the release of neurotransmitter and activates/ increases effect
prevents degradation of neurotransmitter by enzymes or prevents reuptake into the presynaptic knob

Question 87

What effect does nicotine exhibit:

Answer 87

Causes raised heart rate and blood pressure, triggers the release of dopamine associated with pleasure sensations.

Question 88

What is the mechanism of organophosphates?

Answer 88

Anticholinesterases, organophosphates phosphorylate the acetylcholinesterase, competitively inhibiting the enzyme, reduces the ability to hydrolyse ACh and the transmission signal is thus continuously stimulated

Question 89

What effects do drugs have in decreasing the response?

Answer 89

Blocks the synthesis of neurotransmitter

Causes neurotransmitter to leak from vesicle and be destroyed by enzymed

Blocks the receptor and prevents neurotransmitter binding

Prevents release of neurotransmitter from vesicles

Question 90

What is the mechanism of lidocaine?

Answer 90

Molecules block voltage gated sodium channels, preventing the production of an action potential in sensory nerves

Question 91

What is the mechanism of cobra venom?

Answer 91

A bungarotoxin is a neurotoxin preventing acetylcholine receptor channels from opening by binding specifically and irreversible to its alpha subunits. ACh cannot have effect

Muscle not stimulated, paralysis. Toxin binds to post synaptic membrane receptor sites, blocks Ash-Receptor compels formation

Question 92

What is the mechanism of botulinum toxin?

Answer 92

Blocks the release of acetylcholine. Botulism occurs under anaerobic conditions, a toxin produced by bacteria

Question 93

What is Myasthenia Gravis?

Answer 93

Autoimmune disorder, antibodies directed against Each receptor, preventing nerve impulses from triggering muscular contractions

Question 94

What is the effect with MG?

Answer 94

Causes fatigable weakness

Question 95

What is Lambert-Eaton Myasthenic syndrome?

Answer 95

Autoimmune disorder

Antibodies against voltage gated calcium channels, inhibits influx of calcium ions into the presynaptic knob, preventing neurotransmitter release and the stimulation of an action potential in the postsynaptic cells.