HNN Topic 17 - General Neurology

Question 1

List the sequence of events which occur when an action potential is fired

Answer 1

1. Membrane potential reaches threshold value - fires action potential (depolarisation)
2. Repolarisation
3. Hyperpolarisation

Question 2

What is the effect of an excitatory postsynaptic potential?

Answer 2

Brings the postsynaptic membrane potential closer to threshold (depolarisation), therefore increasing the probability of the postsynaptic cell producing an action potential

Question 3

Where are the parasympathetic preganglionic neurons located?

Answer 3

• Brainstem - leave with 4 cranial nerves
• Sacral spinal cord, leave in spinal nerves S2-4

Question 4

Which ions are most important in determining the resting membrane potential?

Answer 4

Sodium, potassium and chlorine

Question 5

What causes multiple sclerosis?

Answer 5

• Autoimmune, antibodies attack myelin
• Discrete lesions affecting myelin of many CNS axons
• Formation of scars (‘sclerosis’) delays/blocks AP - seen as ‘plaques’ in white matter of brain, spinal cord

Question 6

How does Myasthenia Gravis disrupts cholinergic synaptic transmission?

Answer 6

• Interferes with cholinergic signalling at the neuromuscular junction
• Inflammatory disease, antibodies bind to ACh receptors in postsynaptic membrane at motor end plate
• Severe muscle weakness particularly affects eyelids, eyes, face, throat and limb muscles

Question 7

What is the effect of an inhibitory postsynaptic potential?

Answer 7

Moves the postsynaptic membrane potential further away from threshold (hyper-polarisation), therefore reducing the probability of the postsynaptic cell producing an action potential

Question 8

What is the role of glial cells?

Answer 8

Support neurons

Question 9

Define divergence and convergence in the nervous system

Answer 9

Methods of spread of information in the nervous system

• Divergence - one neuron, signal spreads to many targets
• Convergence - many signals affect one neuron

Question 10

What is the cause of Guillain-Barre syndrome?

Answer 10

Inflammatory disease - inflammatory cells destroy myelin sheath

Question 11

Where are the sympathetic preganglionic neurons located?

Answer 11

Thoracic and upper lumbar spinal cord, leave in spinal nerves T1-L3

Question 12

Explain the clinical relevance of voltage-gated sodium channels?

Answer 12

• Local anaesthetics - Lidocaine (NaV antagonist)
• Pain treatment - target NaV on nociceptive terminals
• Epilepsy - NaV antagonist

Question 13

Describe the normal resting membrane potential of cells

Answer 13

• More positive ions outside, more negative ions inside
• Measured in relation to outside, RMP is negative
• Typically -60mV to -70mV

Question 14

How can cerebral function be investigated?

Answer 14

1. Electroencephalography (EEG) - record electrical activity of brain, investigate cognitive response to stimulus
2. Positron emission tomography (PET) - measures blood flow via small dose of radiation in the bloodstream, locate brain activity while performing a task
3. Functional magnetic resonance imaging (fMRI) - measures blood flow
4. Transcranial magnetic stimulation (TMS) - uses electromagne to stimulate brain activity, causing depolarisation or interrupted firing, interrupts brain activity while performing a task

Question 15

Describe the sequence of events which occurs in firing an action potential in terms of movement of ions

Answer 15

1. Sodium channels (voltage gated) open, sodium ion influx, depolarisation
2. Rapid inactivation of voltage gated sodium channels, repolarisation
3. Slow opening voltage-gated potassium channels open, hyperpolarisation
4. Sodium-potassium pump rebalances potassium and sodium ions

Question 16

What causes depolarisation and repolarisation of membranes?

Answer 16

• Depolarisation - increased permeability of membrane to sodium ions
• Repolarisation (+ hyperpolarisation) - increased permeability to potassium ions

Question 17

How is an action potential propagated along an axon?

Answer 17

• Opening of NaV during AP depolarises axon on either side, reaches threshold, opening of NaV, trigger zone = axon hillock
• Wave depolarisation travels one way along axon
• Destination of current depends on axon diameter + number of open pores in membrane
  
  • Follows path of least resistance - widest diameter and most pores

Question 18

What are the clinical signs of Guillain-Barre syndrome?

Answer 18

Progressive motor weakness, motor and sensory loss (face, limbs, trunk, diaphragm)

Question 19

List the types of glial cells in the PNS

Answer 19

• Satellite cells
• Schwann cells - myelination

Question 20

What is usually the first symptom of an entrapment neuropathy?

Answer 20

Paraesthesia - tingling

Question 21

Define pre- and post-ganglionic neurons of the ANS

Answer 21

• Preganglionic - cell body in CNS, axon enters PNS
• Postganglionic - cell body in PNS, axon supplies target organ
• Ganglion - synpase of pre- and post-, collection of neurons which causes a swelling, where postganglionic cell body is located

Question 22

List the types of glial cells in the CNS

Answer 22

• Ependymal - ventricles
• Oligodendrocytes - myelination
• Astrocytes
• Microglia - neuropathic pain

Question 23

List disorders associated with defective myelination

Answer 23

1. Multiple sclerosis
2. Guillain-Barre syndrome

Question 24

What is the effect of hyperpolarisation of the membrane following the firing of an action potential?

Answer 24

Inhibition of new action potential for a few seconds

Question 25

Describe the innervation of the limbs

Answer 25

• Nerve fibres travelling to/from limbs leave spinal cord as spinal nerves - 2 per segment
• Pass through plexuses - brachial and lumbosacral, emerge as peripheral nerves

Question 26

List the types of neurotransmitters

Answer 26

1. Cholinergic - acetyl choline
2. Biogenic amines - catecholamines (noradrenaline, dopamine), serotonin
3. Amina acids - excitatory (glutamine), inhibitory (gamma-aminobutyric acid) - GABA
4. Neuropeptides - endogenous opiods
5. Miscellaneous - gases (nitric oxide), pruines (adenosine, ATP)

Question 27

What is the function of the autonomic nervous system?

Answer 27

Regulates eyes, GI tract and glands, heart and BVs, lungs, reproductive and urinary systems, skin

Question 28

Explain the patterns of sensory loss which can occur

Answer 28

1. Dermatomal - in the distribution of a spinal nerve e.g. slipped disc compressing L5, muscles supplied by spinal nerve also potentially affected
2. Peripheral nerve injury - sensory changes in area supplied by nerve e.g. median nerve in carpal tunnel syndrome - entrapment neuropathy
3. Longest fibres affected = stocking-glove distribution e.g. metabolic disorders such at Vitamin B12 deficiency

Question 29

Describe the clinical presentation of multiple sclerosis

Answer 29

• Partial vision loss, blurred vision, double vision
• Sensory changes e.g. numbness
• Motor symptoms e.g. weakness, partial paralysis, ataxia
• Fatigue
• Pattern of symptoms can’t be explained by one focal lesion - widespread CNS white matter lesions

Question 30

What is the function of neurons?

Answer 30

Functional unit of nervous system:

• Excitable
• Conduct action potentials
• Release neurotransmitters

Different classes of neurons with specialised structures have different functions, all neurons have input, conductile region and an output (secretory)

Question 31

Where are the sympathetic and parasympathetic ganglia located?

Answer 31

• Sympathetic - sympathetic chain next to vertebral column
• Parasympathetic - walls of viscera which they innervate e.g. heart wall

Question 32

Define action potential

Answer 32

• Brief but dramatic change in membrane potential
• If membrane potential reaches threshold value, fires action potential

Question 33

What produces the myelin sheath?

Answer 33

Oligodendrocytes in CNS, Schwann cells in PNS

Question 34

Define the equilibrium potential

Answer 34

Membrane potential when number of ions entering cell = number of ions leaving cell (no net gain/loss)

Calculated using Nernot equation

Question 35

How does Botulism disrupt cholinergic synpatic transmission?

Answer 35

• Distrupts cholinergic signalling at the neuromuscular junction
• Clostridium bacteria produce botulinum toxin (contaminated food), disrupts exocyotsis preventing ACh release
• Skeletal muscle weakness, paralysis of diaphragm (respiratory failure)

Question 36

How do ions move across membranes?

Answer 36

• Ion channels - voltage-gated, ligand-gated (neurotransmitter, drug etc.)
• Ion pump - active transport, requires ATP

Question 37

How is resting membrane potential measured?

Answer 37

Using electrophysiology - intracellular and extracellular electrodes

Question 38

List the parts of neurons

Answer 38

• Dendrites - input
• Cell body (soma)
  
  • Nucleus
• Axon hillock
• Axon - transmission
  
  • Node of Ranvier
  • Myelin
• Synapse
  
  • Pre- and post-synaptic terminals

Question 39

Describe the sequence of events which occurs during synaptic transmission

Answer 39

1. AP enters presynaptic terminal
2. Calcium entry through voltage-gated calcium channel
3. Docking of synaptic vesicled containing neurotransmitters
4. Neurotransmitters released (exocytosis)
5. Neurotransmitter binds to and activates receptors on post-synaptic membrane, ions (sodium/chlorine) enter cell
6. Depolarisation (excitation) or hyperpolarisation (inhibition)

Question 40

Describe summation of post-synaptic potentials

Answer 40

• When combined, potentials can depolarise the membrane to reach firing threshold
  
  • Temporal summation - increased frequency of firing
  • Spatial summation - firing at multiple sites

Question 41

What is the function of the nodes of Ranvier?

Answer 41

Gaps in myelin - allows for saltatory conduction (action potential jumps from node to node), faster transmission