Neurology

Question 1

What are the two main neurotransmitter in autonomic nerve system and what are the fibers they are secreted from?

Answer 1

Acetylcholine - cholinergic nerve fiber
Norepinephrine - adrenergic nerve fiber

Question 2

True or False:
In the autonomic nerve system, all the pre-ganglionic neurons are cholinergic, no matter they belong to sympathetic or parasympathetic.

Answer 2

True

Question 3

What are the differences between muscarinic and nicotinic receptors?

Answer 3

Muscarinic:
- G protein receptors
- Locates at all the effector cells at the end of all the parasympathetic nerve ending and some sympathetic nerve ending (e.g. sweat gland)

Nicotinic:
- Ligand-gated ion channels
- Locates at the autonomic nerve system synapses between preganglion and postganglion, somatic nerve ending (skeletal muscles)

Question 4

Is SNS or PNS also called craniosacral division of ANS?

Answer 4

PNS

• SNS is also called thoracolumbar division of the autonomic nerve system

Question 5

Parasympathetic nerve fibers leave the CNS through which cranial nerves and which nerve in the sacral region?

Answer 5

3, 7, 9, 10 (75%)
Pelvic nerves

Question 6

What is the resting membrane potential for neuron?

Answer 6

-70 mV

Question 7

Which part of the brain do thalamus and hypothalamus belong to?

Answer 7

Forebrain

Question 8

Where is medulla oblongata?

Answer 8

Brainstem (connecting the brainstem to the spinal cord)

Question 9

Where are the grey matter and white matter in the brain and spinal cord?

Answer 9

Brain: grey matter outside, white matter inside
Spinal cord: grey matter inside, white matter outside

Question 10

Which spinal nerve root carries afferent neurons and which one carries efferent neurons?

Answer 10

Dorsal: afferent neurons
Ventral: efferent neurons

Question 11

On MRI T1-weighing, what tissue is hyperintense and what tissue is hypointense? What about T2-weighing and fluid attenuated inversion recovery (FLAIR)?

Answer 11

T1:
- Fat hyperintense
- Fluid (e.g. CSF) hypointense

T2:
- Fluid and tissue with high fluid content hyperintense
- Fat variable
* also called “pathology scan” → inflammation, bleeding, edema will be whither

FLAIR
- Pure fluid (e.g. CSF, cystic fluid) become hypointense → facilitate differentiating

Question 12

What is the difference between acute brain hemorrhage and chronic brain hemorrhage on the MRI T1 and T2 window?

Answer 12

T1
- Acute (< 24 hours): isointense or hypointense
- Chronic: hypointense

T2
- Acute: hyperintense
- Chronic: hypointense

Question 13

Describe decerebrate rigidity and the lesion localization.

Answer 13

Stupuros/comatosen + opisthotonus and extension of all limbs
Lesion: rostral pons and midbrain

Question 14

Describe decerebellate rigidity and the lesion localization.

Answer 14

Normal mentation + opisthotonus with extensor rigidity of the thoracic limbs and either extension or flexion of the pelvic limbs is present
Lesion: cerebellum

Question 15

Describe Cheyne-Stokes breathing.

Answer 15

Periods of hyperpnea alternating with periods of apnea; can be seen with diffuse cerebral or thalamic disease and metabolic encephalopathies

Question 16

Describe central neurogenic hyperventilation and the lesion.

Answer 16

Persistent hyperventilation that may result in respiratory alkalosis
Midbrain lesions

Question 17

When a patient has decrease or absent PLR, where is the lesions?

Answer 17

Midbrain, CN II & III (PNS)

Question 18

When a patient loses its oculocephalic reflex, where is the lesion?

Answer 18

CN 3, 6, 8

Question 19

How will the left eye CN II injury affect the PLR?

Answer 19

When light shines to the left eye, there will be no PLR in both eye; when the light shines to the right eye, there will be direct and consensual PLR in both eyes

Question 20

How will the left eye CN III injury affect the PLR?

Answer 20

When the light shines to the left eye, there will be consensual PLR to the right eye but no PLR in the left; when the light shines to the right eye, there will be direct PLR at the right eye but no consensual PLR to the left eye.

Question 21

When the patient is miotic and there is no ocular injury, where is the lesion?

Answer 21

diencephalon (e.g. thalamus, hypothalamus)

• Hypothalamus is the origin of SNS pathway

Question 22

What are the three categories of seizures?

Answer 22

1) Reactive
2) Structural
3) Idiopathic

Question 23

What is MOA for phenobarbital?

Answer 23

Bind to GABAa receptor and enhance its activity

Question 24

How do you load phenobarbital?

Answer 24

4 mg/kg IV q6h for 4 doses, and then switch to 2.5 mg/kg PO q12h

Question 25

What are the 4 nerves that come from the S1-S3?

Answer 25

Sciatic, pelvic, pudendal, perineal nerves

Question 26

What are the 5 nerves that come from the L4-S1?

Answer 26

Femoral, pelvic, sciatic, pudendal, obturator nerves

Question 27

Describe Schiff-Sherrington phenomenon and the pathophysiology.

Answer 27

• Thoracic limb extension and inability to move the pelvic limbs normally. Normal CP at thoracic limbs. Normal spinal reflex at pelvic limbs.
• Indicates T-L spinal cord injury
• Pathophysiology: a lack of ascending inhibitory input to the thoracic limbs originating from the border cells located in the lower thoracic and lumbar spinal cord
• Border cells are responsible for tonic inhibition of extensor muscle α-motor neurons in the cervical intumescence.

Question 28

When you see two-engine gaits, it most likely indicates which part of the spinal cord injury?

Answer 28

C6 - T2

Thoracic limb: short-stride gait
Pelvic limb: spinal ataxia

Question 29

Define spinal shock.

Answer 29

Profound depression of segmental reflexes caudal to a lesion, despite reflex arcs remaining physically intact

• It can be up to 12-24 hours after injury

Question 30

True or False: The spinal cord extends more caudally in cats compared to dogs.

Answer 30

True

Question 31

When a patient has ventrolateral strabismus, it indicates which CN dysfunction?

Answer 31

CN III

Question 32

True or False: Trigeminal nerve has both sensory and motor function.

Answer 32

True

Question 33

What are the three branches of trigeminal nerve and which one has both sensory and motor function?

Answer 33

Ophthalmic (sensory only)
Maxillary (sensory only)
Mandibular (both motor and sensory)

Question 34

What does the palpebral reflex test for?

Answer 34

Sensory - trigeminal nerve (CN 5)
Medial canthus (ophthalmic branch)
Lateral canthus (maxillary branch)
Motor - facial nerve (CN 7)

Question 35

What does menace response test for?

Answer 35

CN 2, 7

Question 36

Which CN is responsible for tear production?

Answer 36

CN 7

Question 37

What does the pelvic limb withdrawal reflex test for?

Answer 37

L6-S1 and sciatic nerve

Question 38

What does the patellar reflex test for?

Answer 38

L4-L6 and femoral nerve

Question 39

What does the gastrocnemius reflex test for?

Answer 39

L7-S1 and tibial nerve

Question 40

Why KBr is not recommended in cats?

Answer 40

Can cause pneumonitis

Question 41

What is the recommended serum phenobarbital level in dogs? When should you pull the blood after drug administration?

Answer 41

15-35 mcg/dL (higher than 35 mcg/dL is usually associated with liver injury)

6-8 hours after drug administration

Question 42

What is normal serum KBr level in dogs?

Answer 42

When KBr is used alone: 0.8 - 3 mg/ml
When combined with phenobarbital: 0.8 - 2.4 mg/ml

Question 43

True or False: For vestibular ataxia, the side of the head tilt usually indicates the side of the lesion.

Answer 43

True

Question 44

What is the normal range of intracranial pressure?

Answer 44

5-12 mmHg

Question 45

What is the formula for cerebral perfusion pressure?

Answer 45

CPP = MAP - ICP

Question 46

What are the three mechanisms to maintain ICP?

Answer 46

1) Cushing reflex
2) Autoregulation
3) Volume buffering

Question 47

Explain Monro-Kellie doctrine.

Answer 47

The sum of volumes of brain, CSF, and intracranial blood is constant. An increase in one should cause a decrease in one or both of the remaining two

Question 48

Explain how the brain autoregulates the cerebral blood flow.

Answer 48

1) Pressure autoregulation
- When the CPP is within the range of 50-150 mmHg, the brain is able to maintain the stable cerebral blood flow via vascular myogenic reflex
2) Chemical autoregulation
- High PaCO2, low PaO2, high H+ → vasodilation

Question 49

Explain the pathophysiology of Cushing reflex.

Answer 49

Decompensated intracranial hypertension → decreased cerebral blood flow and increased CO2 → catecholamine release → systemic vasoconstriction → activates baroreceptors → bradycardia

Question 50

What is the ideal CPP in dogs and cats?

Answer 50

50 - 90 mmHg

Question 51

What are the 2 effects of mannitol in treating ICH?

Answer 51

1) Immediate volume expansion effect → improves cerebral blood flow
2) Delayed (15-30 min) osmotic effect → reduce brain water

Question 52

What is the rate of axon regeneration?

Answer 52

1 mm per day

Question 53

What are the muscles that are affected in masticatory myositis?

Answer 53

Temporalis
Masseter
Pterygoid

Question 54

Describe the pathophysiology of acquired myasthenia gravis

Answer 54

The body starts to produce autoantibodies against the nicotinic acetylcholine receptors (AChR) at the neuromuscular junction of the skeletal muscles. These autoantibodies lead to compliment-mediated destruction of AChR, reduction of functional receptors, and decreased muscular responses to the acetylcholine release, which at the end impair the transmission of action potential from nerve to muscles and results in muscle weakness.

• This is a type II hypersensitivity
  ** There are 3 main mechanisms for loss of functional AChRs at the neuromuscular junction. The first involves complement-dependent lysis of the postsynaptic membrane caused by antibodies bound to AChRs and simplification of the postsynaptic membrane. Secondly, antibodies can cross-link AChRs on the surface of the membrane leading to increased internalization of AChRs, a decrease in the receptor half-life and decline of the total number of AChRs. In people, the half-life is reduced to 3 days from a normal of 10 days.9 Lastly, antibodies may directly inhibit AChR function.

Reference:
Textbook of Veterinary Internal Medicine,
Khorzad, R., Whelan, M., Sisson, A. and Shelton, G.D. (2011), Myasthenia gravis in dogs with an emphasis on treatment and critical care management. Journal of Veterinary Emergency and Critical Care, 21: 193-208. https://doi.org/10.1111/j.1476-4431.2011.00636.x

Question 55

List 5 differentials for lower motor neuron diseases.

Answer 55

1) Acquired MG
2) Acute idiopathic polyradiculoneuritis
3) Tick paralysis
4) Elapid snake envenomination
5) Hypothyroidism
6) Paraneoplastic syndrome

Question 56

What is the dose for Tensilon test?

Answer 56

Edrophonium is a short-acting anticholinesterase (last 10 minutes)
0.1-0.2 mg/kg IV

• Alternative: neostigmine 20 mcg/kg IV

Question 57

Cholinergic crisis is a dangerous adverse effect from Tensilon test. Name 5 clinical signs and what is the recommended treatment?

Answer 57

Cholinergic crisis is acetylcholine overload at neuromuscular junctions secondary to inhibition of acetylcholinesterase

Clinical signs: hypersalivation, diarrhea, urination, increase bronchial secretion, bronchoconstriction, bradycardia, AV block, muscle twitching
* Patient can be in respiratory distress if the nAhR is overstimulated

Treatment: atropine 0.025 mg/kg IV

Question 58

True or False: In dogs with acute idiopathic polyradiculoneuritis, cranial nerve usually is not affected; while in dogs with botulism, cranial nerve is often affected.

Answer 58

True

Question 59

What type of bacteria cause tetanus?

Answer 59

Clostridium tetani

Gram (+), motile, noncapsulated, anaerobic, spore-forming bacteria

Question 60

What are the two exotoxins for tetanus and how do they affect the body?

Answer 60

Tetanospasmin
- Binds to the membranes of the local motor nerve terminals → inhibits the release of neurotransmitter
Tetanolysin
- locally damaging viable tissue surrounding the infected area → optimizing the conditions for bacterial multiplication

Question 61

What is the difference in the neurological signs between botulism and tetanus?

Answer 61

Botulism: flaccid paralysis
Tetanus: spastic paralysis

Question 62

What is the difference in source between botulism and tetanus?

Answer 62

Botulism: contaminated food
Tetanus: contaminated wound, teething, parturition, OHE

Question 63

What is the direction of infection in tetanus?

Answer 63

Motor → Sensory → autonomic nerve → spinal cord → brainstem

Question 64

What type of interneuron does tetanus mainly affect?

Answer 64

Mainly affect inhibitory interneurons → inhibit release of GABA

Question 65

List 10 clinical signs in Tetanus.

Answer 65

1) Lockjaw
2) Spasm of masticatory & pharyngeal muscles
3) Dysphagia
4) Hypersalivation
5) Opisthotonus
6) Erected ears
7) Wrinkled forehead (sardonic grin)
8) Third eyelid protrution & enophthalmos
9)
10)

Question 66

What is the MOA of using magnesium in tetanus?

Answer 66

1) Non-specific Ca channel blocker → decreases Ca entry into presynaptic terminals → decreased
acetylcholine (ACh) release
2) Decreases the sensitivity of postsynaptic motor endplates to ACh

Question 67

What neurological sign is the early indicator of Mg toxicity?

Answer 67

Deep tendon hyporeflexia (e.g. patellar tendon)

Question 68

For dogs with tetanus, what is the poor prognosis?

Answer 68

Autonomic nerve involvement

Question 69

Describe the severity classification for tetanus in dogs.

Answer 69

Question 70

What are the three neurons coordinating the eyeball movements in respond to the vestibular signals?

Answer 70

CN 3, 4, 6

Question 71

Where are the vestibular nuclei?

Answer 71

medulla oblongata

Question 72

When would the paradoxical head tilt be seen?

Answer 72

1) Central vestibular diseases
2) Lesion at the cerebellar peduncle (flocculonodular lobe of the cerebellum or the supramedullary part of the caudal cerebellar peduncle)

Question 73

Facial paralysis or spasm may be seen in dogs with peripheral vestibular disease, why?

Answer 73

Because CN 7 is very close to CN 8 and can be affected sometimes

Question 74

True or False: Horner’s syndrome (oculosympathetic paresis) is one of the hallmarks for central vestibular disease.

Answer 74

False

Rarely seen in central vestibular disease but may be seen in peripheral vestibular disease.

Question 75

Describe the Horner’s syndrome pathway.

Answer 75

Horner’s syndrome happens due to the loss of sympathetic nerve supply to the eye.
The entire pathway involves three neurons:

• First-order neuron: originates from hypothalamus, descend to the midbrain and pons (ipsilateral) and terminates at the C8-T2 spinal cord
• Second-order neuron (pre-ganglionic neuron): Exits the T1 spinal cord and enters the cervical sympathetic chain, goes ascending and ends at the superior cervical ganglion (deep to the tympanic bulla) at C3-C4
• Third-order neuron (post-ganglionic neuron): Exits the superior cervical ganglion, follows the internal carotid artery and enter the cavernous sinus, joins the CN 6 and enter the orbits with CN 5.

Question 76

List 5 diseases that can cause Horner’s syndrome.

Answer 76

1) Brachial plexus injury
2) Severe middle/inner ear infection
3) Pneumothorax
4) First rib fractures
5) Idiopathic
6) Cervical trauma

Question 77

What are the 4 signs of Horner’s syndrome

Answer 77

Ptosis
Miosis
Third eyelid protrusion
Enophthalmos

Question 78

Which antibiotic can cause peripheral vestibular disease, which one can cause central vestibular disease?

Answer 78

Aminoglycoside - peripheral vestibular
Metronidazole - central vestibular

Question 79

In a paper published in JVIM 2003 by Evans and colleagues, which drug can shorten the recovery time of metronidazole toxicity?

Answer 79

Diazepam 0.5 mg/kg PO q8h x 3 days (first dose is given as injection)

Question 80

True or False: Glutamate + ammonia → Glutamine

Answer 80

True

Question 81

Which cell in the brain facilitates the removal or ammonia?

Answer 81

Astrocytes

By transamination of glutamate into glutamine

Question 82

List 3 excitatory neurotransmitter and 3 inhibitory neurotransmitter

Answer 82

Excitatory: Glutamate, aspartate, acetylcholine, epinephrine, norepinephrine

Inhibitory: GABA, serotonine, glycine

• Dopamine: modulation

Question 83

Where does quinolinic acid come from?

Answer 83

Quinolinic acid is a strong excitatory neurotoxin (bind to NMDA receptors)

Question 84

For cat with hepatic encephalopathy, which amino acid is essential in the diet?

Answer 84

arginine (important for urea cycle)

Question 85

What are the three mechanisms for phenobarbital’s anti-seizure effect?

Answer 85

1) Prolong the opening of the Cl-channel associated with GABAa receptors
2) Inhibit glutamate receptor
3) Inhibit voltage-gated Ca channel

Question 86

What is the phenobarbital’s protein binding capacity?

Answer 86

45%

Question 87

After starting the phenobarbital, when should the patient be checked for serum drug level?

Answer 87

after 2 weeks (about 5 half-life so the drug can reach steady-state), and then after 6 weeks

Question 88

What is the MOA of KBr as anticonvulsant?

Answer 88

Cause hyperpolarization of the neuron via Br influx through the Cl channels

Question 89

How is bromide metabolized?

Answer 89

It is not metabolized and is excreted unchanged in urine

Question 90

What is the half-life for KBr?

Answer 90

25 days

Question 91

What is bromism and how do you treat it?

Answer 91

Bromide toxicity
Clinical signs: altered mentation, ataxia, upper or lower motor neuron paresis
Treatment: 0.9% NaCl

Question 92

What is the MOA of zonisamide as anticonvulsant? What is the dose in dogs and cats?

Answer 92

Inhibition of voltage-gated Na channels
Inhibition of T-type Ca channels
Modulation of dopaminergic activity
Enhancement of GABA activity in the CNS
Inhibition of carbonic anhydrase activity

Dogs: 5-10 mg/kg PO q12h
Cats:10 mg/kg PO q24h

Question 93

What is recommended therapeutic serum zonisamide level?

Answer 93

10-40 mcg/ml

Question 94

What is MOA for levetiracetam?

Answer 94

Binding to the synaptic vesicle protein SV2A → decreased release of neurotransmitter into the synapse

Question 95

How is levetiracetam metabolized? What is the half-life?

Answer 95

minimal metabolism, mostly excrete in urine

Half-life: 3-4 hours

Question 96

What is MOA of gabapentin?

Answer 96

Bind to the α2δ1 subunit of neuronal voltage-gated Ca channels → inhibition of release of excitatory neurotransmitters into the synapse

Question 97

Which space does CSF locate?

Answer 97

Subarachnoid space

Question 98

What are the 4 contraindications of CSF tap?

Answer 98

1) Acute traumatic brain injury
2) Coagulopathy or severe thrombocytopenia
3) Atlanto-axial luxation or cranial cervical vertebral fracture or luxation
4) Severe/rapidly progressing intracranial hypertension

Question 99

List the tissue you will go through during CSF tapping.

Answer 99

1) Skin
2) Subcutaneous space
3) Muscles
4) Supraspinous ligament
5) Interspinous ligament
6) Ligamentum Flavum
7) Epidural space
8) Dura mater
9) Arachnoid
10) Subarachnoid space

Question 100

What are the landmarks of CSF tapping at cisterna magna?

Answer 100

External occipital protuberance
C2 cranial edge of the spinal process
Dorsal arch of C1 vertebrae
Atlas wings

1) Draw a line between the external occipital protuberance and the C2 cranial edge of the spinal process. The spinal needle insertion site should be in the middle of that line

2) Draw a triangle between the external occipital protuberance and the two wings of atlas. The spinal needle insertion site should be in the center of the triangle

Question 101

How many ml of CSF can be safely removed in cats and small dogs? What about larger dogs?

Answer 101

Cats & small dogs: 1-2 ml
Larger dogs: 6 ml

Question 102

What are the preferred lumbar CSF tap in large breed dogs, small breed dogs and cats?

Answer 102

Large breed dogs: L4 - L5
Small breed dogs: L5 - L6
Cats: L6 - L7

Question 103

What is normal protein concentration and WBCs numbers in cisternal and lumbar CSF?

Answer 103

Cisternal: < 25 mg/dL, < 3/uL
Lumbar: < 40 mg/dL, < 5/uL

Question 104

If there is RBCs in the CSF, how do you adjust the protein concentration based on the RBC number?

Answer 104

Every 1000 RBCs may increase protein concentration by 1 mg/dl

Question 105

If there is RBCs in the CSF, how do you adjust the WBC count based on the RBC number?

Answer 105

Every 500 RBCs will increase WBC number by 1

Question 106

What is the majority of WBC in normal CSF?

Answer 106

Small mononuclear cells (60-70%)
Large mononuclear cells (30-40%)

Question 107

What is the dose of ketamine for dogs with refractory epilepsy?

Answer 107

5 mg/kg IV, followed by 0.1-0.5 mg/kg/hr

Question 108

Which anticonvulsant is associated with pancreatitis?
1) Phenobarbital
2) KBr
3) Levetiracetam
4) Zonisamide

Answer 108

2) KBr

Question 109

Which anticonvulsant is associated with necrotizing dermatitis and KCS?
1) Phenobarbital
2) KBr
3) Levetiracetam
4) Zonisamide

Answer 109

4) Zonisamide

Question 110

What are the three CNs that are associated with dysphagia?

Answer 110

CN 9, 10, 11

Question 111

What are the most common intracranial neoplasia?

Answer 111

Meningioma

Question 112

What CN is affected when a patient has medial strabismus?

Answer 112

CN 6

Question 113

Which CNs are purely sensory and which are pure motor?

Answer 113

Sensory: 1, 2, 8
Motor: 3, 4, 6, 11, 12

Question 114

What is the most common CNS fungal infection in cats?

Answer 114

Cryptococcus

• Treatment: fluconazole

Question 115

Where do the vestibular nuclei locate?

Answer 115

medulla/rostral medulla oblongata

Question 116

What is the pathophysiology of paradoxical vestibular disease?

Answer 116

A subset of central vestibular disease

Because the cerebellum’s influence on the vestibular system is largely inhibitory, lesions in cerebellopontine angle cause vestibular release that is interpreted as a contralateral deficit. This results in clinical signs that are consistent with a lesion on the opposite side.

Question 117

True or False: In paradoxical vestibular disease, the nystagmus fast phase will be directed towards the lesion; the head tilt will be away from the lesion; there can be ipsilateral deficits in CN V–XII; and postural reaction deficits is contralateral to the lesion.

Answer 117

False

Postural reaction deficits ipsilateral to the lesion

Question 118

List 5 drugs that can cause ototoxicity

Answer 118

Aminoglycosides
Loop diuretics
Cisplatin
Chlorhexidine
Erythromycin
Chloramphenicol
Minocycline

Question 119

What are the three types of disc herniation?

Answer 119

1) Hansen type I herniations: involve a complete rupture of the annulus with displacement of the nucleus into soft tissue structures.
2) Hansen type II herniations: ruptures of the inner layers of the annulus and only partial displacement of the nucleus into the annular fibers with annular hypertrophy
3) Non-compressive disk ruptures (also known as high-velocity low-volume, type III, traumatic) are small-volume herniations that result in significant spinal cord injury (e.g. ANNPE)

Question 120

Describe central cord syndrome.

Answer 120

It’s a clinical presentation in which patients show more severe paresis in the thoracic limbs (TLs) than pelvic limbs (PLs).
In the more cranial cervical spinal cord (mainly C1-C5; some C6-T2), a midline disk herniation can cause compression of the more medial proprioceptive tracts associated with the thoracic limbs before compressing the most lateral belonging to the pelvic limbs.

• Hypoventilation indicates a poor prognosis

Question 121

Which segment of the spinal vertebrae are most likely to develop diskospondylitis from migrating foreign body?

Answer 121

L2-L4

Question 122

What is the common radiological findings on diskospondylitis?

Answer 122

Symmetrical lytic lesions of the adjacent vertebral endplates with reactive sclerosis and symmetric spondylosis

** Radiograph findings can lag from the clinical improvement

Question 123

What is the main radiological difference between spinal tumor and diskospondylitis?

Answer 123

Most primary vertebral tumors involve one vertebral body and do not affect the IVD or cross the IVD space

Question 124

What is the common empirical tx for diskospondylitis?

Answer 124

Cephalexin for 4-6 months to 1 year

Question 125

How often for dogs with diskospondylitis develop subluxation?

Answer 125

20%

Question 126

True or False: Phenobarbital is an auto-inducer of hepatic microsomal enzymes (p450 system), which can progressively decrease the elimination half-life with chronic dosing.

Answer 126

True

Question 127

What is the recommended time to recheck KBr serum level?

Answer 127

6-12 weeks, and the annually

Question 128

What will happen if you administer phenobarbital and zonisamide together long term?

Answer 128

Zonisamide’s half-life will decrease

Question 129

List 10 metabolic causes of seizures.

Answer 129

Hypoglycemia
Hypothyroidism
Hypoadrenocorticism
Hyperbilirubinemia
Hypoxemia
Hyperosmolarity
Hyperthermia
Hyponatraemia and hypernatraemia
Hypocalcaemia and hypercalcaemia
Hepatic encephalopathy
Uraemic encephalopathy
Hyperlipoproteinaemia

Question 130

What type of receptor is GABAb receptor? What happen when it is activated?

Answer 130

G- protein coupled receptor

Activation of GABAb receptor opens K channel and close Ca channels → hyperpolarization of the membrane.

Question 131

Explain paroxysmal depolarization shift.

Answer 131

Sustained and uninhibited neuronal depolarization → Cellular influx of Ca → opening of voltage-gated Na channels and an influx of Na → burst of action potentials → plateau-like depolarization → rapid repolarization → hyperpolarization (mediated by GABA)

Question 132

Define refractory status epilepticus and superrefractory status epilepticus.

Answer 132

Refractory status epilepticus: SE that does not respond to first-line anticonvulsant therapy.

Superrefractory status epilepticus: SE continuing or recurring more than 24 hours after initiation of treatment with anesthetic therapy.

Question 133

Define status epilepticus.

Answer 133

Seizure activity that lasts > 5 minutes, or the occurrence of 2 or more seizures without recovery of consciousness.

Question 134

What are the two main type of glutamate receptor. Which one does NMDA belong to?

Answer 134

Inotropic (influx of Na and Ca through the channel): NMDA, AMPA, kainate
Metabotropic (use a second messenger system to increase inward currents of Na & Ca, which leads to depolarization)

Question 135

What happens when NMDA receptor is activated?

Answer 135

increase intracellular Ca → further depolarization

Question 136

What are the two phases of SE.

Answer 136

1) Compensated SE
- Increase autonomic activity secondary to seizure activity
- hypertension, tachycardia, cardiac arrhythmias, hyperglycemia, hyperthermia, ptyalism, increased cerebral blood flow

2) Decompensated SE (after ~30 minutes of continuous seizure activity)
- Cerebrovascular autoregulation fails and intracranial pressure increases
- Hypoglycemia, hyperthermia, hypoxia, respiratory failure, acidosis, hyperkalemia, hyponatremia, uremia may occur

Question 137

What is the onset of IV phenobarbital? What about keppra?

Answer 137

15 minutes
14 minutes

Question 138

What are the three types of nerve injury?

Answer 138

1) Neurapraxia: mildest injury type and includes transient functional loss (conduction block) without loss of nerve continuity.
Axonotmesis: interruption of nerve axons with some degree of myelin loss. The surrounding perineurium and epineurium are preserved.
Neurotmesis: complete rupture of a nerve (axon, myelin, and surrounding structures). Recovery is not possible without surgical intervention