Introduction to demyelinating disorders

Question 1

When does myelination being in babies?

1 1st trimester
2 - 2nd trimester
3 - 3rd trimester

Answer 1

3 - 3rd trimester

- rapid increase at birth and continues throughout life

Question 2

Do oligodendrocytes form myelin in set places?

Answer 2

• no
• oligodendrocytes move to where they are needed
• then myelin is laid down

Question 3

What is myelin?

1 - cytoplasm of neuronal cells
2 - extensions of schwann and oligodendrocytes lipid membranes
3 - protein laid down by neutrophils on neurons
3 - lipid and protein laid down during foetal development but stops when born

Answer 3

2 - extensions of schwann and oligodendrocytes lipid membranes
- mixture of lipid and proteins

Question 4

What is myelin sheath?

Answer 4

• the myelin that has wrapped around the axons

Question 5

Where can oligodendrocytes be found and how many axons can they myelineate?

Answer 5

• CNS

- multiple

Question 6

Where can schwann cells be found and how many axons can they myelineate?

Answer 6

• PNS

- one axon per schwann cell

Question 7

Are all axons in the CNS and PNS myelineated?

Answer 7

• no

Question 8

In the CNS which axons are myelineated?

1 - CNS axons >1-2um
2 - CNS axons <1-2um
3 - CNS axons >0.2um
4 - CNS axons <0.2um

Answer 8

3 - axons >0.2um

- small axons are small enough and don’t need help transmitting signal

Question 9

Which cells in the PNS are myelineated?

1 - PNS axons >0.2um
2 - PNS axons <0.2um
3 - PNS axons >1-2um
4 - PNS axons <1-2um

Answer 9

3 - PNS axons >1-2um

- small axons are small enough and do not need help transmitting signal

Question 10

Some axons have more wraps of myelin than others. What determines how many layers of myelin the axons have?

1 - location of axon
2 - length of the axon
3 - type of axon (multi, uni-polar etc.)
4 - diameter of axon

Answer 10

4 - diameter of the axon

Question 11

What role do gliotransmitters have in myelination?

Answer 11

• communication between neuronal and glial cells

- myelination is dependent on neuronal activity

Question 12

What are the 3 functions of myelin?

1 - reduce loss of charge, increase speed of action potential, increase transmission efficacy
2 - increase loss of charge, increase speed of action potential, increase transmission efficacy
3 - reduce loss of charge, decrease speed of action potential, increase transmission efficacy
4 - increase loss of charge, increase speed of action potential, decrease transmission efficacy

Answer 12

1 - reduce loss of charge, increase speed of action potential, increase transmission efficacy

Question 13

The nodes of ranvier are spaces between where axons are myelinated. What is highly concentrated at the nodes of ranvier?

1 - voltage gated Ca2+ channels
2 - voltage gated K+ channels
3 - voltage gates Mg+ channels
4 - voltage gated Na+ channels

Answer 13

4 - voltage gated Na+ channels

Question 14

When a neuronal cell body receives an action potential from a dendrite it causes depolarisation inside the cell. How does this then move from the cell body of the neuron to the axon hillock (where axon and cell body meet) and move down the axon?

Answer 14

• Na+ voltage gated channels open
• depolarisation spreads and Na+ gated channels further down the axon begin to open
• acts like a domino effect

Question 15

Are voltage gated channels generally found on the sections of axon that are myelinated?

Answer 15

• no

Question 16

How does myelin reduce the loss of charge in the axons and therefore facilitate the movement of the action potential down the axon?

1 - no voltage gated channels in myelin areas and decreased axon permeability
2 - only Na+ and Ca2+ voltage gates channels in myelinated areas
3 - permeability to just K+ leaving the axon
4 - increased permeability and increased voltage gated channels in myelin areas

Answer 16

1 - no voltage gated channels in myelin areas and decreased axon permeability

• no voltage gated channels in myelin areas means no ions can leave or enter the already depolarised neuron
• permeability is decreased in myelin areas, meaning ions cannot leave, so depolarised neuron remains depolarised
• positive charge (action potential) must move down the axon

Question 17

What is capacitance in relation to an action potential?

Answer 17

• relates to the ability of an electrical system to store charge or the charge required to initiate an action potential/electrical impulse
• high capacitance = high positive charge required for an action potential
• low capacitance = less positive charge required for an action potential

Question 18

Capacitance relates to the ability of an electrical system to store charge or the charge required to initiate an action potential/electrical impulse.

• high capacitance = high positive charge required for an action potential
• low capacitance = less positive charge required for an action potential

How does myelin affect the capacitance of an axon?

1 - capacitance is high meaning meaning low charge required for action potential
2 - capacitance is high meaning meaning high charge required for action potential
3 - capacitance is low meaning meaning low charge required for action potential
4 - capacitance is low meaning meaning high charge required for action potential

Answer 18

3 - capacitance is low meaning meaning low charge required for action potential

• myelinated regions have lower capacitance (less negative charge)
• less negative charge in myelin areas means less positive charge required for action potential
• therefore less positive charge is required to initiate an action potential

Question 19

When we look at the flow of an action potential along an axon, do small or larger diameter axons have faster flow of action potential?

Answer 19

• axons are part of a neurons cytoplasm, which means they contain cytoplasmic proteins, vesicles, etc.
• larger diameter have more room for cytoplasmic vesicles to spread out
• large diameter axons will have faster conductance as there is less resistance for ions to flow

Question 20

What is the relationship between the diameter of the axon and the resistance to the flow of ions that move down the axon following an action potential?

Answer 20

• ⬆️ diameter = ⬇️ resistance = ⬆️ flow

- ⬇️ diameter = ⬆️ resistance = ⬇️ flow

Question 21

What are the 2 terms used to describe the propagation of an action potential down a myelinated and non-myelinated axon?

Answer 21

• saltatory conduction = myelinated fast conduction

- continuous conduction = unmyelinated slow conduction

Question 22

If we break down the word leukodystrophies, what does this term mean?

Answer 22

• leuko = white
• dyst = abnormal (muscle dystrophy)
• trophies = growth

Question 23

Leukodystrophies is a rare neurological disorder. What happens?

• leuko = white
• dyst = abnormal
• trop = growth

Answer 23

• demyelinating disease
• degeneration/loss of the white matter of the nervous system (myelin)
• causes slow or no nerve message or action potential

Question 24

Leukodystrophies is a rare neurological disorder.

• leuko = white
• dyst = abnormal
• trop = growth

This is a dysmyelinating disease causing degeneration/loss of the white matter of the nervous system, which is myelin meaning action potentials are unable to travel along axons, or if they do it is very slow. Is this a congenital or acquired disease?

Answer 24

• congenital

Question 25

Leukodystrophies is a rare neurological disorder that causes loss of myelin sheaths, termed demyelination. Does this always cause loss of myelin?

Answer 25

• it can do

- but it can be where myelin is not formed when a baby is born

Question 26

Leukodystrophies is a rare neurological disorder that causes loss of myelin sheaths, termed demyelination. What does this do to nerves?

Answer 26

• can cause complete loss of nerve activity

- can cause slowing of nerve activity

Question 27

In patients with demyelination, do symptoms always present the same in all patients?

Answer 27

• no
• depends on the nerve affected
• if visual nerve then eye sight is affected

Question 28

Multiple sclerosis, whose name is based on multiple sclerae (multiple glial scars which is what is formed when glial cells (astrocytes) try to repair damaged neurons) is a demyelinating disease. Does this disease affect the CNS or PNS?

Answer 28

• affects CNS, so the brain and spine

- does not affect the PNS

Question 29

Multiple sclerosis is a common neurological disease that is an immune based disorder. Is it more common in males or females?

Answer 29

• females 3:1 ratio

- common in western world

Question 30

Although the specific cause of multiple sclerosis is unknown, what are some of the most common risk factors that have been linked?

Answer 30

• genetics (aprox 30%)
• lifestyle (obesity, smoking)
• environment (sun/vit D exposure)

Question 31

Multiple sclerosis is an immune mediated demyelinating disease. What immune cell is able to cross the blood brain barrier and enter the brain, that generally would not be present?

1 - B cells
2 - dendritic cells
3 - T cells
4 - neutrophils

Answer 31

3 - T cells

• once in they are activated by myelin
• more T cell receptors on BBB and more T cells enter and attack myelin

Question 32

Multiple sclerosis is an immune mediated demyelinating disease. What type of hypersensitivity is this disease?

1 - type I (IgE related)
2 - type II
3 - type III
4 - type IV

Answer 32

4 - type IV (4)

• cell mediated so T cells stimulate inflammation
• damage the myelin in CNS

Question 33

Multiple sclerosis is an immune mediated demyelinating disease. This is a type 4 hypersensitivity. Does this cause a continuous demyelination or are there periods of demyelination, and are these linked with clinical symptoms?

Answer 33

• periods of demyelination are linked with symptoms
• periods of remission where demyelination stops and CNS tries to repair the damaged neurons
• relapse when demyelination starts again

Question 34

If a patient has multiple sclerosis, does that mean demyelination will be continuous?

Answer 34

• no
• if demyelination stops, neurons could remyelinate
• failure to remyelinate leads to further symptoms

Question 35

In a patient who has multiple sclerosis, and has not had any relapse of demyelination, then remyelination can occur. Is this remyelinate as good as the original demyelination?

Answer 35

• no
• not as good and can cause glial scars
• can improve nerve signals though

Question 36

What is relapsing remitting disease in multiple sclerosis?

Answer 36

• when demyelination occurs
• remission of demyelination occurs
• demyelination occurs again and this continues
• patients symptoms will link with demyelination

Question 37

What is secondary progressive multiple sclerosis?

Answer 37

• relapsing and remitting demyelination

- but course is deteriorating

Question 38

In the image below is a patients with multiple sclerosis sagittal scan from the brain. What are the white area in this image a sign of?

1 - myelinated areas
2 - neuronal cell bodies
3 - unmyelinated areas
4 - glial scars called sclerela

Answer 38

4 - glial scars called sclerela

Question 39

Although there are a myriad of symptoms that patients with multiple sclerosis can present with, what are the most common patterns of disease?

Answer 39

• optic neuritis (vision loss)
• cerebellar (balance, tremor, co-ordination)
• spinal cord (muscle weakness, spasticity, bladder/bowel dysfunction)

Question 40

In patients with optic neuritis, swelling and inflammation of the optic nerve can occur, what can patients experience?

Answer 40

• reduced vision and colour loss

- pain on eye movement (due to inflammation)

Question 41

In patients with multiple sclerosis, optic neuritis is one of the most common symptoms. This can cause swelling and inflammation of the optic nerve causing reduced vision and colour loss and pain on eye movement (due to inflammation). Is this permanent?

Answer 41

• no can be affected during phases of demyelination

- however, in remission (when demyelination has stopped) vision can return

Question 42

Patients with multiple sclerosis can experience Lhermittes sign, what is this?

1 - inability to make hand signals with their hands
2 - pain felt in the upper limbs
3 - electric shock felt in back and limbs
4 - electric shock felt in upper limbs

Answer 42

3 - electric shock felt in back and limbs

• felt when we bend out heads towards our chest
• causes by lesion on the cervical region of the spinal cord

Question 43

Multiple sclerosis can have a significant impact on a patients health and quality of life. What scale can be used to determine the level of disability and impact the disease has on their quality of life?

1 - MRC scale
2 - Expanded Disability Status Scale (EDSS)
3 - Disease Severity Scale (DSS)

Answer 43

2 - Expanded Disability Status Scale (EDSS)

Question 44

Multiple sclerosis causes significant inflammation. What drugs can be given to these patients to treat the inflammation?

Answer 44

• steroid (acute relapse) such as glucocorticoids
• increase recovery speed
• do not get better than prior to relapse though

Question 45

Multiple sclerosis causes is generally progressive. What drugs are trying to be developed?

Answer 45

• disease modifying agents

- essentially stop or reverse the disease

Question 46

What is Guillain-Barre syndrome?

Answer 46

• demyelinating disease of the PNS

Question 47

Guillain-Barré syndrome is a demyelinating disease that is an immune based condition. Although we do not know exactly what causes this condition, but it is linked with infections. What are a few of the most common infections?

Answer 47

• diarrhoeal illness (campylobacter causes 1/3)
• upper respiratory tract infection, covid
• hepatitis E

Question 48

Guillain-Barré syndrome is a demyelinating disease that is an immune based condition. Although we do not know exactly what causes this condition, but it often follows infections. Why is this?

Answer 48

• antibodies are produced to target an infection

- antibodies then target myelin due similarity in antigens

Question 49

What is ‘molecular mimicry?

Answer 49

• foreign bodies and/or pathogens share similar antigen structure to self antigens
• this is a leading mechanisms by which infectious or chemical agents may induce autoimmunity

Question 50

Guillain-Barré syndrome is caused by antibodies binding to the myelin. which then initiates an immune response. The immune cells then attack the myelin in the PNS. There are different forms of Guillain-Barré syndrome. Which is the most common in the UK?

1 - acute demyelinating polyradiculoneuropathy (AIDP)
2 - acute motor axonal neuropathy (AMAN)

Answer 50

1 - acute demyelinating polyradiculoneuropathy (AIDP)

• poly = many nerves
• radiculon = roots, relating to nerve roots and spine
• neuropathy = disease of the neurons

Question 51

Guillain-Barré syndrome (GBS) that is caused by antibodies targeting the nerve itself is the most common form of GBS in asian countries, what is this called?

1 - acute demyelinating polyradiculoneuropathy (AIDP)
2 - acute motor axonal neuropathy (AMAN)

Answer 51

2 - AMAN: acute motor axonal neuropathy

Question 52

In Guillain-Barré syndrome patients tend to present with weakness (may be tingling as well) over how many weeks?

1 - 2-4 days
2 - 2-4 weeks
3 - 2-4 months
4 - 2-4 years

Answer 52

2 - 2-4 weeks

• affects anything with muscles
• patients can deteriorate and die within days

Question 53

In Guillain-Barré syndrome patients tend to present with weakness (may be tingling as well) over 2-4 weeks. How long before this reaches the lowest point?

1 - 4-6 weeks
2 - 6-12 weeks
3 - 12-24 weeks
4 - >24 weeks

Answer 53

2 - 4-6 weeks

Question 54

In Guillain-Barré syndrome once a patient has presented with weakness (may be tingling as well) over 2-6 weeks, what tends to occur?

Answer 54

• patients recover and stabilise, but may not be to normal levels
• some people can deteriorate and die though

Question 55

Guillain-Barré syndrome is a monophasic condition, what does this mean?

Answer 55

• patient will have one episode of inflammation on PNS

- unlikely to have another

Question 56

Label the dermatomes of the upper limbs using the labels below:

• T1
• C5
• C8
• C7
• C6

Answer 56

1 - C5
2 - C6
3 - C7
4 - C8
5 - T1

Question 57

Label the dermatomes of the leg using the labels below:

• S1
• L5
• L4
• L3
• L2

Answer 57

1 - L2
2 - L3
3 - L4
4 - L5
5 - S1

Question 58

T4 and T10 are 2 important landmark dermatomes on the upper body. What do each of these dermatomes link with?

Answer 58

• T4 = nipples

- T10 = umbilicus

Question 59

If a patient presents with optic neuritis (inflammation or demyelination), what is the most likely diagnosis?

1 - UMN = multiple sclerosis
2 - LMN = guillain barre syndrome

Answer 59

1 - UMN = multiple sclerosis

Question 60

What is clinically isolated syndrome?

1 - patient has one nerve affected
2 - first episode of multiple sclerosis
3 - first episode of a neurological symptoms that lasts > 24 hours
4 - first episode of Guillain-Barré syndrome

Answer 60

3 - first episode of a neurological symptoms that lasts > 24 hours

Question 61

Clinically isolated syndrome (CIS) is the first episode of a neurological symptoms that lasts > 24 hours. If a patient presents with optic neuritis as part of the their CIS there is a 50% chance the patient will then go on and develop what?

1 - Guillain-Barré syndrome
2 - dementia
3 - cerebral vascular disease
4 - multiple sclerosis

Answer 61

4 - multiple sclerosis

Question 62

What is cataplexy?

1 - patient develops cat like features
2 - sudden loss of sensations
3 - sudden loss of muscle tone whilst awake
4 - sudden spasticity when awake

Answer 62

3 - sudden loss of muscle tone whilst awake

- leads to weakness and a loss of voluntary muscle control

Question 63

Cataplexy is the sudden loss of muscle tone while a person is awake leads to weakness and a loss of voluntary muscle control. What is the most likely cause of this?

Answer 63

• a sudden, strong emotions such as laughter, fear, anger, stress, or excitement
• should be sleep and have narcolepsy

Question 64

What is bells palsy?

1 - patients experiences sound in ears like a bell ringing
2 - patient experiences complete facial muscle weakness
3 - patient experiences episodic loss of facial muscle weakness/paralysis
4 - patients face becomes infected

Answer 64

3 - patient experiences episodic loss of facial muscle weakness/paralysis
- can begin suddenly and worsen over 48 hours

Question 65

Bells palsy is an unexplained episode of facial muscle weakness or paralysis. It normally affects entire face and can begin suddenly and worsen over 48 hours. Although damage to the facial nerve can cause this, what is the most common cause?

1 - bacterial infection
2 - molecular mimicry
3 - trauma
4 - herpes virus

Answer 65

4 - secondary to herpes virus

- caused by virus

Question 66

What is the Wada test?

Answer 66

• looks at language and memory on one side of the brain at a time
• brain is infused with pentobarbital (slows the activity of the brain) through carotid artery
• one side of the brains activity will be suppressed

Question 67

The Wada test is a test to look at language and memory on one side of the brain at a time. The brain is infused with pentobarbital (slows the activity of the brain) through carotid artery causing one side of the brains activity to be suppressed in the temporal and frontal lobes. How do we know which side is affected?

Answer 67

• even with pentobarbital if they answer questions correctly then the opposite side that is being treated is the one controlling language and memory

Question 68

What does the name Myasthenia Gravis translate as?

Answer 68

• my = muscle
• asthenia = weakness
• gravis = grave
  SO MUSCLE WEAKNESS

Question 69

Myasthenia Gravis translates as muscle weakness.

• my = muscle
• asthenia = weakness
• gravis = grave

What causes myasthenia gravis?

Answer 69

• autoimmune disease
• type II hypersensitivity = antibody mediated hypersensitivity
• B cells produce antibodies that bind nicotinic receptors