FINAL neuro

Question 1

What is CN IV (name, sensory vs. motor function)

Answer 1

Trochlear, motor

Question 2

Function of CN IV

Answer 2

Superior oblique muscle of the eye

Question 3

How is CN IV tested?

Answer 3

With CNIII- tracking moving objects

Question 4

What is CN V (name, sensory vs. motor function)

Answer 4

Trigeminal, both sensory and motor

Question 5

Function of CN V

Answer 5

Sensory signals from face (mouth, nose, eye, dura mater)
Motor fibers to the muscles of mastication

Question 6

Name and briefly describe a condition causing dysfunction of CN V

Answer 6

Trigeminal neuralgia- hypersensitivity to pain in the areas innervated by CN V (ipsilateral face- eye, maxilla, mandible) caused by neurovascular or other compression or demyelination of CN V.

Herpes zoster opthalmicus- shingles in the opthalmic branch of trigeminal nerve

Question 7

What is CN VI (name, sensory vs motor function)

Answer 7

Abducens, motor

Question 8

Function of CN VI

Answer 8

motor- innervates lateral rectus of the eye

Question 9

Dysfunction of CN VI causes?

Answer 9

Inability to ABDduct eye

Question 10

Name all 12 cranial nerves

Answer 10

OOOTTAFVGVAH
olfactory, optic, oculomotor, trochlea, trigeminal, abducens, facial, vestibulocochlear, glossopharyngeal, vagus, accessory, hypoglossal

Question 11

What is myasthenia gravis?

Answer 11

A chronic autoimmune disease affecting the neuromuscular junction characterized by weakness of voluntary muscles

Question 12

Describe the epidemiology of myasthenia gravis

Answer 12

2 peaks- women in 20-30s, men in 60-60s.
Risk factors: frequently manifests for first time in pregnancy, exposure to anesthetic agents, thymic hyperplasia/ tumor, other autoimmune disorders

Question 13

Time course of myasthenia gravis

Answer 13

insidious onset, relapse and remissions with gradual progression of disease.

Question 14

What muscles are usually affected first in myasthenia graviS?

Answer 14

mouth, eyes, face, mouth, throat, neck
Classic triad: ptosis, diplopia, dysphagia

Question 15

Describe patho of myasthenia gravis

Answer 15

Chronic autoimmune disorder: antibody mediated attack on acetylcholine receptors (the nicotinic receptor) at the post synaptic membrane of the neuromuscular junction. Decreased in these receptors= diminished transmission of nerve impulses across neuromuscular junction.
type 2 hypersensitivity reaction
T-cell mediated

Question 16

Symptoms of myasthenia gravis

Answer 16

Classic triad: ptosis, diplopia, dysphagia

-difficulty chewing, drooling, slurred speech, easily fatigable, symptoms more pronounced with fatigue or in the evening

-normal sensory perception, pupillary response, coordination
-eye movement dysfunction, cannot sustain arm raise, change in voice when counting to 100

Question 17

What is myasthenic crisis

Answer 17

Life threatening, risk of respiratory arrest, triggered when resp muscles weakened to the point of needing a ventilatory. Often triggered by infection, fever, adverse reaction to med.

Question 18

Treatment myasthenia gravis

Answer 18

Cholinesterase inhibitors (stop breakdown of Ach, therefore increasing concentration in neuromuscular junction) *can result in cholinergic crisis that mimics myasthenic crisis, but problem is too much Ach instead of not enough (diarrhea, cramping, bradycardia, pupils constrict, increased salivation, risk for resp arrest)

Question 19

What NT is involved in myasthenia gravis

Answer 19

Acetylcholine (the receptors (nicotinic receptors) in post synaptic side of the neuromuscular junction are destroyed :(

Question 20

What is restless leg syndrome?

Answer 20

Neuro disorder characterized by unpleasant sensation in legs accompanied by urge to move legs, esp at bedtime

Question 21

Risk factors restless leg

Answer 21

DM, ESRD, anemia, iron deficiency anemia, MS, PD, pregnancy, venous insufficiency

Question 22

Time course restless leg

Answer 22

Worse at evening/ night time/ with rest, preventing sleep

Question 23

Patho restless leg

Answer 23

Cause unknown- believed to involve genetic component, dysfunctional dopaminergic transmission, and low brain iron stores

Question 24

Signs and symptoms restless leg syndrome

Answer 24

-Occur when the limbs are at rest and are relieved by movement
-Symptoms may extend to arms and trunk
-Commonly bilateral and symmetrical, but can be unilateral on occasion
-Sensation described as burning, nagging, aching, painful, itching bones, electric current, creepy crawl

Question 25

Diagnosis of restless leg syndrome

Answer 25

does NOT require a sleep study
All of the following required: urge to move the legs, usually accompanied/ caused by unpleasant sensation in legs, symptoms begin or worsen during periods of rest of inactivity, symptoms are partially/ totally relived by movt, symptoms wose during evening/ night, symptoms cannot be due to another medical condition (i.e., arthritis)

positive supportive features: response to dopamine therapy

Question 26

Treatment restless leg syndrome

Answer 26

Non pharm (sleep hygiene, hot baths, exercise moderately- yoga helps, massage, dc meds that can contribute (antidepressants, antiemetics, antihistamines, antipsychotics), avoid sleep deprivation

pharm: replace iron if deficient, dopaminergic agents, benzos, opioids, anticonvulsants, alpha 2 agonists

Question 27

Describe the course and innervation of the median nerve

Answer 27

Arises from lateral and medial cords of brachial plexus, enters arm at axilla, travels with brachial artery down shaft of humerus into the cubital fossa, travels on ventral surface of forearm, passes through wrist through carpal tunnel (under the transverse carpal ligament) to hand.
Innervates all the muscles of the forearm anterior compartment (wrist and finger flexors, forearm pronators), ventral surface of thumb, 1st/ 2nd digit, half of 3rd digit

Question 28

Most common cause of median nerve injury

Answer 28

carpal tunnel syndrome

Question 29

What is carpal tunnel syndrome?

Answer 29

Median nerve become compressed in the carap tunnel (Osseo fascial tunnel composed of carpal bones and flexor retinaculum (fascia) due to swelling of tendons in the tunnel. Often caused by repetitive movements related to wrist flexion/ extension, holding wrist in awkward position, or strong gripping of objects

Question 30

Signs and symptoms of carpal tunnel syndrome

Answer 30

• Tingling and numbness of the thumb, index, middle and ring fingers.
• Can also cause pain in the wrist with numbness/tingling
• Typically, the patient wakes at night with burning or aching pain and with numbness and tingling and shakes the hand to obtain relief and restore sensation.
• Long term compression leads to thenar muscle atrophy and weakness of the thumb and index fingers (can lead to hand of benediction- inability to flex middle and index finger)

Question 31

Treatment of carpal tunnel

Answer 31

splinting, treat any underlying disorders contributing to inflammation, corticosteroid injection, surgical decompression

Question 32

Describe two tests to support diagnosis of carpal tunnel

Answer 32

Tinel’s sign: lightly tapping on the ventral wrist over the median nerve elicits sensation of tingling/ pins and needles in the distribution of the nerve. Sensitivity 25-75%; specificity 70-90%.

Phalen’ maneuver: bring arms to shoulder level, bring back of hands together in midline, hold wrist in forced flexion for 30-60 seconds. Positive if tingling and numbness over median nerve distribution. Sensitivity 51-91%, specificity 33-88%

Question 33

What is the most common compression neuropathy?

Answer 33

Carpal tunnel syndrome (followed by cubital- compression of ulnar nerve)

Question 34

Describe the course and innervation of the radial nerve

Answer 34

Originates from brachial plexus, runs down radial groove of humerus to radial side of elbow, passes through supinator muscle, runs down middle of posterior forearm to dorsal thumb, 1st and 2nd digit.
Innervates extensors of the forearm, wrist, fingers, and thumb

Question 35

What kind of injuries is the radial nerve susceptible to?

Answer 35

Entrapment can occur due to overuse injuries (most common pronation/ supination of wrist/ forearm)
Vulnerable to humeral mid shaft fracture
Can also sustain injury from improperly fitted crutches, shoulder dislocations, arm compression injuries

Can lead to wrist drop

Question 36

Describe the course and innervation of the ulnar nerve

Answer 36

Down arm, passes posterior to medial epicondyle of humerus, travels along medial aspect of forearm, passes through the cubital tunnel at the wrist beneath the ulnar collateral ligament to the 4th/ 5th digit
Innervates flexors carpi ulnaris and most of intrinsic hand muscles. Sensation for 4th and 5th digits.

Question 37

When you hit your funny bone, what nerve do you injure?

Answer 37

Ulnar

Question 38

What is cubital tunnel syndrome

Answer 38

Compression/ traction of the ulnar nerve as it passes beneath the ulnar collateral ligament and between the two heads of the flexor carpi ulnaris muscle.

Question 39

Where is the cubital tunnel?

Answer 39

Posterior aspect of elbow. Fibro-osseous tunnel.

Question 40

Causes of cubital tunnel syndrome?

Answer 40

Leaning on the elbow, prolonged and excessive elbow flexion

Question 41

Signs and symptoms of cubital tunnel

Answer 41

• Numbness and tingling along the ring and little fingers, and ulnar aspect of the hand
• Can present as elbow pain
• Long term compression causes weakness of intrinsic muscle of the hand and flexors of the ring and little finger
• Chronic compression leads to ulnar hand claw due to muscle imbalances (see picture below). An ulnar claw hand is metacarpophalangeal joint extension and interphalangeal joint flexion of the small and ring fingers caused by an imbalance between intrinsic and extrinsic hand muscles

Question 42

What cranial nerve is CV VII?

Answer 42

Facial

Question 43

What is cranial nerve VIII

Answer 43

Vestibulocochlear

Question 44

What is cranial nerve IX

Answer 44

Glossopharangeal

Question 45

Function of CV VII (facial)

Answer 45

Motor and sensory

• Facial expressions
• Supplies motor fibres to Lacrimal (tears) and salivary glands
• Taste (carries sensory fibres from taste buds of anterior part of tongue

Question 46

Fx of CN VII (vestibulocochlear)

Answer 46

Sensory only

• Transmits sense of equilibrium (vestibular branch)
• Transmits sense of hearing (cochlear branch)

Question 47

Fx of CN VIII (glossopharangeal)

Answer 47

Motor and sensory

• Motor fibres serve pharynx and salivary glands (gag and swallow reflex)
• Carries signals from pharynx, posterior tongue (taste) and pressure receptors of carotid artery

Question 48

Cranial nerve VII (facial) dysfunction leads to what condition?

Answer 48

Bell’s Palsy

Question 49

What is bell’s palsy? Unilateral or bilateral?

Answer 49

Unilateral facial nerve palsy (weakness or paralysis)

Question 50

What causes Bell’s Palsy?

Answer 50

Exact etiology unknown, likely caused by inflammation of CNVII causing compression (CNVII travels through narrow canals in temporal bone and exits via the stylomastoid foramen).

May be due to reactivation of HSV in CNVII, or due to an autoimmune response.

Inflammation/ compression of CNVII leads to ischemia and degeneration, resulting in impaired signalling and transmission of motor impulses. Ipsilateral weakness or facial paralysis will result (along with loss of sensation in anterior tongue)

Question 51

T/F With Bell’s Palsy, you will still see forehead wrinkling

Answer 51

False - this is impaired (unlike in stroke)

Question 52

Risk factors for bell’s palsy

Answer 52

-Previous herpes simplex or herpes zoster infection, recent infection, diabetes, pregnancy (especially 3rd trimester), family history of Bell’s Palsy, hypertension, and hypothyroidism

Question 53

Where do the Upper Motor Neurons arise?

Answer 53

Arise in the cerebral cortex

Question 54

CN VII: where does it originate. How many branches does it contain?

Answer 54

CNVII originates in the Pons and runs through a narrow foramen of the temporal bone, out the stylomastoid foramen, through the parotid, and divides into 5 branches in the face (temporal, zygomatic, buccal, marginal mandibular, cervical)

Question 55

Is onset of bell’s palsy slow or fast? How long does it take to resolve?

Answer 55

-Acute onset, progressing over hours to days

-Recovery in 3-4 weeks; may take up to 6 months (faster recovery occurs in mild/ moderate cases)

-Complete recovery in 80% of cases; without treatment, 70% of patients with complete and 94% with incomplete paralysis recover facial function in 6 months

Question 56

What are the two tracts that upper motor neurons travel? Outline the path the signals travel on both tracts

Answer 56

Corticospinal – transports signals from cerebral cortex to lower motor neurons

Corticobulbar – transports signals from cerebral cortex to synapse with cranial nerve motor nuclei in the pons and medulla

Question 57

S&S of bell’s palsy. Is it painful?

Answer 57

• Impaired forehead wrinkling
• Inability to close eye of affected side, drooping of eyelid
• Mouth drooping to affected side/ inability to smile
• Flattened nasolabial fold
• Can be associated with involuntary movements (synkinesis)

-Facial paresthesia
-Drooling
-Decreased tearing or abnormal lacrimation with eating
-Hypersensitivity to sound (hyperacusis)
-Ear pain
-Vesicular rash in ear (suggestive of Herpes Zoster cause and potential Ramsay-Hunt syndrome)
-Pain associated with facial palsy
-Change in sensation of taste (anterior tongue)

Question 58

Is CT routine for bell’s palsy? WHen might we want one?

Answer 58

CT or MRI only if atypical presentation or physical findings suggestive of central lesion (affecting other cranial nerves, associated with limb weakness or ataxia), progressing paralysis, or lack of resolution

Question 59

Meds used for bell’s palsy

Answer 59

Prednisone
Antivirals if severe
Eye drops
Acetaminophen

Question 60

The corticospinal and corticobulbar tracts are the pyramidal tracts. What is the main function of the pyramidal system?

Answer 60

Allow for voluntary movements

Question 61

In both types of pyramidal tracts some neurons decussate (crossover) to the contralateral side, while others stay ipsilateral. What percentage decussate in corticospinal and corticobulbar tracts?

Answer 61

Corticospinal:

Approximately 90% of neurons decussate (crossover) to contralateral side – known as lateral corticospinal tract in the white matter of the spinal cord

Approximately 10% of neurons stay ipsilateral and make up the anterior corticospinal tract

Corticobulbar:

50% of neurons synapse with lower motor neurons on ipsilateral side

50% decussate and synapse with lower motor neurons on the contralateral side

Question 62

Where do lower motor neurons originate?

Answer 62

In the ventral horn grey matter of the spinal cord

Question 63

What do lower motor neurons do?

Answer 63

Transport signals from the upper motor neuron to effector muscle to perform a movement

Use acetylcholine as their neurotransmitter

Question 64

What is the neurotransmitter used by lower motor neurons?

Answer 64

Acetylcholine – binds with nicotinic cholinergic receptors on skeletal muscles resulting in muscle contraction

Question 65

An upper motor neuron lesion can occur where? What are some possible causes?

Answer 65

result of damage to descending motor pathway at cortical, brainstem, or spinal cord levels

neoplasm, trauma, inflammation, cerebral palsy, MS, CVA, Parkinson’s

Question 66

What muscle tone occurs with UMN leisons?

Answer 66

Muscle overactivity, Hypertonia/spasticity

In spinal shock- flaccid paralysis occurs for transient period followed by increased muscle tone particularly in antigravity muscles.

Question 67

Describe involuntary movements associated with UMN lesions

Answer 67

Absence of involuntary movement

Clonus/spasm - occurs often due to loss of higher motor center control

Question 68

Describe reflexes with UMN lesions

Answer 68

Reflexes can be hyperactive

Plantar reflex present

Question 69

Describe muscle weakness with UMN lesions

Answer 69

Muscle groups affected, mild weakness, minimal disuse muscle atrophy.

Question 70

A LMN lesion can occur where? What are some possible causes?

Answer 70

LMN are in anterior/ventral horn of spinal cord and motor nuclei of brainstem. Axon from these cell bodies bring impulses from UMN to skeletal muscles through anterior spinal roots or cranial nerves.

palsies, poliomyelitis, motor system disease, polyneuritis, muscular dystrophy, myasthenia gravis, polymyositis.

Question 71

What muscle tone occurs with LMN lesions?

Answer 71

Hypotonia

Flaccidity

Question 72

Describe involuntary movements associated with LMN lesions

Answer 72

fasciculations

Question 73

Describe reflexes with LMN lesions

Answer 73

Hyporeflexia/areflexia Decreased muscle stretch reflexes

Absent plantar reflexes

Question 74

Describe muscle weakness with LMN lesions

Answer 74

Individual muscles may be affected, mild weakness, marked muscle atrophy.

Can be asymmetrical and may involve one limb in beginning to become generalized with disease progression.

Question 75

RECAP – compare and contrast UMN and LMN lesions

Answer 75

UMN
UMN syndromes are the result of damage to descending motor pathways at cortical, brainstem, or spinal cord levels
UMNs descend to the brainstem and decussate at the medullar pyramids to influence muscles on the contralateral side of the body
Clinical manifestations reflect muscle overactivity

UMN lesion (muscular) symptoms include:
Many affected muscles (all muscles at/below the lesion are affected)
Muscle weakness (can include spastic paresis/paralysis)
Hypertonia
Minimal muscle atrophy
Absence of involuntary movement
Clonus/spasms

LMN
LMNs have cell bodies in the ventral horn of the grey matter in the spinal cord. The axons exit via the ventral root and then synapse to a skeletal muscle
­LMN syndromes impair both voluntary and involuntary movement.
The degree of paralysis or paresis is proportional to the number of LMNs affected

LMN lesion (muscular) symptoms include:
Limited number of muscles affected compared to UMN (think myotomes)
Muscle weakness (can include flaccid paresis/paralysis)
Hypotonia
Prominent muscle atrophy
Fasciculation (quivering of muscles of under the skin)

Question 76

What is the most diagnosed sleep disorder?

Answer 76

Obstructive Sleep Apnea (OSA)

Question 77

What are risk factors for OSA?

Answer 77

Obesity

Male gender

Older age

Question 78

OSA is caused by blockage of the upper airways, what are some pathologies which can cause this blockage?

Answer 78

Allergies- cause swelling in the tissues of the nasopharynx

Swollen adenoids/tonsils – due to infection

Overbite – pulls jaw back and blocks the airway

Overweight/obesity – too much weight in the soft tissues of the neck which can weigh down the airway, especially when lying down.

The above are made worse by hormonal changes at night – causes the muscles around the airway to become slightly less stiff while sleeping, less able to keep the airway open and can become obstructed.

Question 79

There is another type of sleep apnea called Central Sleep Apnea. What is the patho behind this form?

Answer 79

Refers to the fact that the problem stems from the CNS

Brain intermittently stops making an effort to breathe for 10-30 seconds

Apnea can persist for several seconds even after waking which can cause feelings of panic and further disrupt the sleep cycle

The respiratory system goes rapidly between no effort to breathe and hyperventilating with no in-between.

Question 80

What might a person with OSA demonstrate for signs and symptoms while sleeping?

Answer 80

Excessive loud snoring

Gasping

Multiple apneic episodes (temporary pause of breathing) that lasts 10 seconds or longer

This periodic breathing eventually produces arousal out of sleep, resulting in decreased total sleep time and sleep and REM deprivation.

Question 81

What are the daytime and long-term effects of OSA?

Answer 81

OSAS leads to hypercapnia and decreased O2 -> eventually leads to polycythemia, pulmonary hypertension, systemic hypertension, stroke, right-sided heart failure, dysrhythmias, liver congestion, cyanosis, and peripheral edema.

Hypersomnia (excessive daytime sleepiness) – can be severe, may fall asleep while talking, working, driving.

Impaired mood and cognitive function; symptoms include impairment of attention, episodic memory, working memory, and executive functions.

Question 82

Outline diagnostics for OSA

Answer 82

As per the BC Practice Guidelines: A Home Sleep Assessment Test (HSAT) is used first in symptomatic patients only. If that is negative/inconclusive, then a polysomnography is recommended.

(Polysomnography records your brain waves, the oxygen level in your blood, heart rate and breathing, as well as eye and leg movements during the study.)

Question 83

What does treatment look like for OSA?

Answer 83

CPAP, dental devices, surgery of upper airway and jaw if indicated, and obesity management

Question 84

Seizures can be focal or generalized, what is the difference?

Answer 84

A focal (or partial) seizure involves only one portion of the brain, either the left or right cerebral hemisphere. Can be simple or complex

A generalized seizure shows EEG changes in both hemispheres of the brain. Almost always involve loss/impaired consciousness

Question 85

What are some shared findings of both simple and complex focal seizures?

Answer 85

Partial (focal) seizures generally only involve one portion of the brain (either left or right cerebral hemisphere)

most common type of seizure

May be accompanied by visual or auditory hallucinations

Aura is common

Question 86

Focal seizures can be classified as Simple Partial Seizures (SPS) or Complex Partial Seizures (CPS), what is the main difference?

Answer 86

Complex seizures are notable for impaired consciousness. Complex also may be followed by confusion, fatigue, headaches.

SPS common symptoms include jerking of a limb and may be preceded by an aura, including epigastric discomfort, fear, or unpleasant smells

Question 87

Generalized seizures typically involve loss/impairment of consciousness and may be preceded by an aura. List the 4 subtypes of generalised seizures

Answer 87

Tonic-clonic (grand mal) seizures

Absent Seizures (petit mal)

Atonic Seizures (drop seizures)

Myoclonic Seizures

Question 88

What are some findings and considerations for Tonic-clonic seizures?

Answer 88

Generally last one to two minutes

Notable for falls, cries, rigidity (tonicity), jerking (clonicity), with possible cyanosis, and urinary incontinence.

May be preceded by a prodome of unease or irritability (hours or days).

A grand mal seizure is followed by a postictal phase.

Question 89

What are some findings and considerations for Absence seizures?

Answer 89

Usually last 2 to 15 seconds

Notable for beginning and ending abruptly.

Symptoms noted include staring, eye flutters or eye rolling, and automatisms.

First aid is not required.

Question 90

What are some findings and considerations for atonic seizures?

Answer 90

Characterized by abrupt loss of muscle tone, loss of posture, or sudden collapse.

These seizures tend to be resistant to medication.

Protective headgear may be needed.

Generally first aid is not required unless an injury occurs.

Question 91

What are some findings and considerations for myoclonic seizures?

Answer 91

Characterized by rapid, brief contraction of muscles (sudden jerks or clumsiness), usually on both sides of the body, arm, or sudden jerk of a foot during sleep.

First aid is generally not required.

A single spasm upon transition to sleep is considered normal.

Question 92

What is Status Epilepticus?

Answer 92

A state of continuous seizures lasting more than 5 minutes, or rapidly recurring seizures without regaining consciousness from previous seizure or a single seizure lasting more than 30 minutes

Question 93

Phases of a seizure include the preictal, ictal and postictal phases. Outline these phases

Answer 93

Preictal – includes prodroma(early clinical manifestations such as malaise, headache and depression which may occur days to hours before onset of a seizure) and aura (gustatory, visual or auditory experience or a feeling of dizziness or numbess)

Ictal – includes tonic phase (state of muscle contraction with excessive muscle tone) and clonic phase (state of alternating contraction and relaxation of muscles)

Post-ictal – time immediately following seizure, may experience headache, confusion, memory loss, dysphagia, and paralysis that can last hours-2 days. Deep sleep is common

Question 94

Who is most likely to get Parkinson’s Disease?

Answer 94

Primary PD begins after age 40, increasing incidence after age 60

More prevalent in males

Question 95

Describe the patho of Parkinson’s. Which neurotransmitter is involved?

Answer 95

Degeneration of basal ganglia with dysfunctional alpha-synuclein protein and loss of dopamine producing neurons in substantia nigra and dorsal striatum

Depletion of dopamine and excess of cholinergic activity in the feedback circuit

Question 96

True or false – Parkinson’s disease is curable

Answer 96

False – chronic and incurable. A progressive condition with worsening symptoms over time.

No therapies are effective for slowing or stopping brain degeneration in PD

Question 97

What will you see for motor impairments in Parkinson’s?

Answer 97

Temor – most notable in hands, “pill rolling tremor”, a resting tremor which diminishes with movement

Rigidity – stiffness, can see “cogwheel rigidity” where there are series of catches or stalls was a person’s limb is passively moved. Postural changes – stooped. Stare – expressionless face.

Akinesia (absence of movement) /bradykinesia (slow movement) /hypokinesia (lessened movement). All three involve difficulty initiating movement. Create shuffling gait, small steps.

Postural instability – poor balance, can lead to falls

Question 98

What will you see for non-motor impairments in Parkinson’s?

Answer 98

Psychiatric: Cognitive impairment, Depression, anxiety, Sleep difficulties → wild dreams, Mood disturbances, Decreased motor learning ability, Dementia (advanced stages)

Micrographia

Autonomic dysfunction: Orthostatic hypotension, Constipation, Increased sweating

Decreased sense of smell

Question 99

What are some complications of Parkinson’s?

Answer 99

Freezing phenomenon: Progressive hypokinesia, bradykinesia → akinetic pause in movement

Falls

Dystonia – involuntary muscle contractions leading to disfiguring and painful postures

Dementia - Common after prolonged, primarily motor disease

Question 100

True or false: Parkinson’s disease causes muscle weakness

Answer 100

Despite the various motor symptoms of PD, there is no weakness of muscles. This differentiates PD from motor cortex or corticospinal pathway diseases.

Question 101

How is Parkinson’s diagnosed?

Answer 101

There is no definitive diagnostic test for PD. Thus, dx is based on clinical presentation.

Parkinsons should be suspected in anyone with tremor, stiffness, slowness, balance problems, or gait disorders.

CT or MRI brain scanning should not be routinely used to diagnose PD

Patients, especially young, who request genetic testing should be assessed by a movement disorder specialist.

Clinical presentation

Resting tremor, rigidity, bradykinesia

Dopaminergic medication response

Question 102

Dizziness and vertigo could be a sign of dysfunction of which cranial nerve?

Answer 102

Vestibulocochlear (VIII)

Question 103

A loss of gag reflex is reflective of dysfunction in what cranial nerve?

Answer 103

IX (glossopharangeal)

Question 104

Compare cranial nerves IX (glossopharangeal) and XII (hypoglossal)

Answer 104

Glossopharangeal: both motor and sensory. M: pharynx and salivary glands, responsible for gag and swallow. S: taste from posterior tongue and pressure receptors of carotid artery.

Hypoglossal: motor only. Responsible for muscles required in speech and swallowing.

So both are involved in motor component of swallowing.

Question 105

Motor syndromes in what part of the brain are associated with ataxia and other symptoms of uncoordinated movement?

Answer 105

Cerebellum

Question 106

T/F Damage to the right side of the cerebellum generally causes symptoms on the right side of the body

Answer 106

TRUE. Cerebellar motor syndromes primarily influence the same side of the body; for example, damage to the
right cerebellum generally causes symptoms on the right side of the body

Question 107

What is the term for: Impairment of the ability to make movements exhibiting a rapid change of motion that is caused by cerebellar dysfunction

Answer 107

Dysdiadokokinesis

Question 108

Which part of the brain controls fine motor movements?

Answer 108

Cerebellum
(also posture, balance and motor learning)

Question 109

What neurological disorder can have cerebellar and corticospinal involvement that presents as nystagmus, ataxia, and weakness with all four limbs involved?

(there may be multiple but this one stands out in the ILOs…. just trying to figure out what cerebellar disorders Don wants us to know!)

Answer 109

MS

Question 110

What kind of somatory sensory receptors are responsible for touch and proprioception?

Answer 110

Mechanoreceptors

Question 111

What kind of somatic sensory receptors transmit pain?

Answer 111

Nociceptors

Question 112

What kind of somatic sensory receptors transmit temperature?

Answer 112

Thermoreceptors

Question 113

Which types of somatosensory fibres are nonmyelinated?

Answer 113

Type C

Question 114

What stimuli do type C fibres sense?

Answer 114

• Sense burning pain and hot temperatures
• dull, aching, throbbing, and poorly
  localized pain
• visceral pain (tends to be poorly localized with an aching,
  gnawing, throbbing, or intermittent cramping quality)

Question 115

What stimuli do type A fibres sense? Differentiate Type A alpha and beta from delta

Answer 115

Type A delta – sharp pain, gross touch, cold temp

type A alpha, A beta – fastest fibers, proprioception, vibration, fine touch

Overall: type A fibres conduct SHARP PAIN, TOUCH, COLD TEMP, VIBRATIONS, and PROPRIOCEPTION

Question 116

Differentiate the spinothalamic tract (a somatosensory tract) in terms of what signals are transmitted via the lateral and anterior tracts

Answer 116

Lateral tract = sensory information for pain and temperature

Anterior tract = sensory information for touch and pressure.

(osmosis says everything but crude touch is lateral…. mixed messages!)

Question 117

T/F A fibres are myelinated

Answer 117

True

Question 118

What are the 2 tracts of the somatosensory system?

Answer 118

1) Medial Lemniscal Pathway
2) Spinothalamic tract

Question 119

Which neurodegenerative disease affects both upper and lower motor neurons?

Answer 119

ALS

Question 120

What is ALS?

Answer 120

= a worldwide neuro-degenerative disorder that
diffusely involves lower and upper motor neurons, resulting in progressive muscle weakness

Amyotrophic (without muscle nutrition or progressive muscle wasting) refers to the predominant lower
motor neuron component of the syndrome. Lateral sclerosis, scarring of the corticospinal tract in the lateral
column of the spinal cord, refers to the upper motor neuron component of the syndrome.

Question 121

Who is diagnosed with ALS?

Answer 121

ALS occurs in young adults or older adults, but it is most commonly diagnosed in middle to late
adulthood.

It affects both men and women

Question 122

What causes ALS? Basic patho

Answer 122

We don’t know the cause.
- genetic associations
- very complex patho suggested involving abnormal genes, protein accumulation, inflammatory responses…all leads to motor neurons death

• motor neurons gradually break down and die –> brain can’t communicate so muscles become weak

Question 123

S&S of ALS. How does it progress?

Answer 123

• initial symptoms are heterogeneous and can relate to UMN or LMN….about 60% have focal muscle weakness beginning in arms and legs and progressing to muscle atrophy, spasticity, and loss of manual dexterity and gait.
• Often starts with hand weakness, dropping things, tripping, cramping of upper extremities
• dysphagia
• dysarthria (muscles involved in speaking are weak)
• slurred or “thick” voice/dysphonia (poor voice quality)
• weakness and fasciculations
• inability to ambulate
• respiratory weakness/failure is late symptom
• recurrent pneumonias
• NO associated mental, sensory, or autonomic symptoms present.

Question 124

What are the types of ALS? Which is most common? What percentage have a hereditary version?

Answer 124

Sporadic ALS - most common form of ALS
- The disease can affect anyone regardless of gender, ethnicity or age, although it most often affects people between the ages of 40 and 60.
- Children of those with sporadic ALS have no greater likelihood of developing ALS than the rest of the population.

Familial ALS
-Capable of being passed from a parent to his or her child.
- Approximately 5 to 10% of ALS cases are familial.

Bulbar ALS
- Regardless of whether someone has sporadic or familial ALS, 30% of all people with the disease have Bulbar ALS.
- In the early stages of Bulbar ALS, the motor neurons in the corticobulbar area of the brainstem are the first to be affected.
- This means that the muscles of the head, face and neck become paralyzed before muscles in other parts of the body.

Question 125

What causes death in ALS?

Answer 125

Resp failure

Question 126

ALS: average survival from onset to death _____years

Answer 126

3-5 years :(

Question 127

T/F ALS isn’t associated with sensory deficits.

Answer 127

True! Only motor.

Question 128

What would be an expected finding of dysfunction of CN I (Olfactory nerve)?

Answer 128

Usually due to trauma or a tumour.

Inability to detect smell.

Question 129

What would be an expected finding of dysfunction of CN II (Optic nerve)?

Answer 129

Usually due to trauma, tumour, MS or stroke.

Blindness of a visual field defect.

Question 130

What would be an expected finding of dysfunction of CN III (Oculomotor nerve)?

Answer 130

Usually due to diabetes or increased ICP.

Ptosis, dilated pupil.

Question 131

Define migraine headache (without aura).

Answer 131

Migraine is an episodic neurological disorder characterized by a headache lasting 4 to 72 hours.

Question 132

Migraine headache (without aura) is diagnosed when 2 of the following occur:

Answer 132

-unilateral throbbing head pain,

-pain worsens with activity,

-moderate or severe pain intensity;

+ and at least one of the following:

-nausea and/or vomiting

-photophobia and phonophobia

Question 133

Persons with migraines have increased risk for developing which disorders?

Answer 133

Epilepsy

Depression & anxiety disorders

Cardiovascular disease

Stroke

Question 134

What are the most common migraine headache triggers?

Answer 134

Too tired or oversleeping

Missed meals

Overexertion

Weather changes

Stress… or relaxation from stress (omg the poor person!)

Hormonal changes (mensturation)

Excess afferent stimulation (eg bright lights, strong smells)

Chemicals (alcohol, nitrates)

Question 135

What are the 4 clinical phases of a migraine headache attack?

-Big flashcard, sorry. Hope it doesn’t trigger a migraine ;)

Answer 135

1. Premonitory phase: ⅓ of persons have premonitory symptoms hours to days before onset of headache. Symptoms include: tiredness, irritability, loss of concentration, stiff neck, food cravings.
2. Migraine aura: ⅓ of migraines come with aura symptoms at least some of the time; may last up to 1 hour. Aura symptoms can be visual, sensory, motor.
3. Headache phase: throbbing pain usually begins on 1 side and spreads to include the entire head. HA may be accompanied by fatigue, N&V, dizziness. There may be hypersensitivity to anything touching the head. Symptoms last 4-72 hours (usually about 1 day).
4. Recovery phase: irritability, fatigue, or depression; may take hours or days to resolve.

Question 136

25-30% of migraines have aura.

What is aura?

Answer 136

Aura → experiencing strange smells, lights, visual disturbances, or even hallucinations before the onset of migraine

Question 137

What are chronic migraines?

Answer 137

Begin as episodic migraines that increase in frequency over time.

Occurs at least 15 days in a month!!! …for more than 3 months

Can occur daily or on a near-daily basis.

Question 138

What are chronic migraines associated with?

Answer 138

Overuse of analgesic migraine medications (sometimes called rebound headaches)

Obesity

Caffeine overuse.

Treatment: similar to that for episodic migraine.

Question 139

Individuals with chronic migraine unresponsive to medical treatment should be evaluated for…?

Answer 139

Intracranial hypertension without papilledema and the possibility of sinus venous stenosis.

Question 140

What is the pathophysiology of tension type headaches (TTH)?

Answer 140

Occur due to contraction of muscles of the scalp and neck

Predisposing factors:

    -tension/stress 

    -cervical or back disorders 

Episodic TTH: associated with peripheral pain mechanism-sensitization of myofascial sensory nerves

CTTH: associated with central pain mechanism- hypersensitivity of pain fibers from the trigeminal nerve that leads to central sensitization

Question 141

What are the s/s of tension-type headache, or TTH?

Answer 141

-Mild to moderate bilateral headache with a sensation of a tight band or pressure around the head with onset of pain

-not aggravated by physical activity

-no other associated features

Question 142

How do you diagnose CTTH?

Answer 142

Chronic Tension Type Headaches (CTTH): diagnosed when patient has TTH at least 15 days per month for at least 3 months

-need to rule out migraine or other types of headache

Question 143

___________________ is a condition characterized by attacks of severe unilateral pain, accompanied by ipsilateral cranial autonomic symptoms and/or restlessness or agitation.

Answer 143

Cluster headache.

Question 144

Describe some s/s of cluster headaches.

Answer 144

Cluster headaches are severe and sharp or stabbing in quality.

Pts are typically restless, prefer to pace about or sit and rock back and forth during an attack.

Symptoms most commonly occur in periorbital or temporal regions.

Cluster headache attacks are strictly unilateral, and the symptoms almost always remain on the same side of the head during a single attack.

Symptoms can switch to the other side during a different cluster attack (so-called side shift) in approx 15 percent of cases.

Question 145

Autonomic symptoms typically occur only during the acute attack of cluster headaches. What presentations might you see?

Answer 145

Ipsilateral to the headache and may include ptosis, miosis, lacrimation, conjunctival injection, rhinorrhea, and/or nasal congestion. Sweating and increased cutaneous blood flow. Some report cutaneous allodynia.

Some patients with cluster have chronic signs of sympathetic paralysis such as miosis and ptosis that transiently intensify during acute attacks.

In rare cases, sympathetic disturbances persist on the previously affected side of the face in patients whose cluster headache has switched sides

Question 146

Which imaging diagnostic is recommended for a patient with cluster headaches?

Answer 146

(MRI) of the brain with gadolinium for the initial evaluation of all patients with suspected cluster headache to exclude a structural abnormality of the brain and pituitary gland.

Question 147

What are some treatment options for tension-type headache?

Answer 147

Mild: ice/heat for muscular tension

Mod-severe: NSAIDS, Acetaminophen, ASA, caffeine

Prevention strategies include
-stress reduction, daily exercise, massage, dental appliances for teeth grinding/clenching at night

CTTH: tricyclic antidepressants and behavioral/relaxation therapy

Botox injections are beneficial for some

Question 148

Chronic tension-type headache (CTTH) is associated with which pain mechanism and cranial nerve?

Answer 148

Associated with central pain mechanism- hypersensitivity of pain fibers from the trigeminal nerve that leads to central sensitization.

Question 149

What are some general physical characteristics on non-REM sleep?

Answer 149

Begins when the hypothalamus releases inhibitory signals.

Sympathetic tone decreases, and parasympathetic activities increase (remember rest and digest).

Men can experience penile erections; women can experience clitoral engorgement.

Basal metabolic rate decreases from 5-10%.

Pupil constriction occurs.

Question 150

How many stages of non-REM sleep are there?

Answer 150

3

Question 151

What are some characteristics of the
non-REM sleep stage N1?

Answer 151

What are some characteristics of the
non-REM sleep stage N1?

Question 152

What are some characteristics of the
non-REM sleep stage N2?

Answer 152

Brain activity is still in theta (high frequency, low amplitude waves), but sleep spindles and K-complexes are seen on EEG.

Sleep spindles are brief bursts of high brain activity.

K-complexes are brief spikes in elevation of waves, quickly normalizes.

A theory behind spindles and K-complexes is that information is trying to process but the thalamus is filtering it out to help us remain asleep.

Question 153

What are some characteristics of the
non-REM sleep stage N3?

Answer 153

Brain activity is delta waves (low frequency, high altitude waves).

Deep sleep, very difficult to wake from N3.

Growth hormones are released, cell repair is underway.

Question 154

What are some characteristics of the Rapid Eye Movement (REM) sleep stage?

Answer 154

Brain activity resembles wakefulness, or theta in N1.

Most dreaming occurs in REM – these are the dreams we are most likely to remember.

AKA paradoxical sleep. The paradox is that we have a very active brain but also have muscle paralysis.

We can experience irregular heart rate, resp rate, and a change in body temperature.

This stage is important for memory and learning. If we learned something new that day and then did not have a great sleep with enough REM, we may have difficulty retaining that information.

Question 155

The cycle typically cycles through
N1-> N2-> N3-> REM-> N1 or 2-> REM-> N1 or 2-> REM etc.

The first REM stage typically occurs after the first hour of sleep.

How many cycles of sleep are recommended, or ‘typical’ of a good night’s sleep?

Answer 155

4-6

Question 156

Specific areas of the brain are responsible for different stages of our sleep cycle.

How does the hypothalamus influence sleep?

Answer 156

Hypothalamus: Major sleep centre. Secretes the neuropeptides acetylcholine and glutamate that promote wakefulness, and prostaglandin D2, adenosine, melatonin, serotonin, l-tryptophan, GABA and growth factors which promote sleep.

Question 157

Specific areas of the brain are responsible for different stages of our sleep cycle.

How does the pontine reticular formation influence sleep?

Answer 157

Pontine reticular formation: Mainly responsible for creating REM sleep.

Question 158

Specific areas of the brain are responsible for different stages of our sleep cycle.

How does the thalamocortical network influence sleep?

Answer 158

Thalamocortical network: Projections produce non-REM sleep.

Question 159

Specific areas of the brain are responsible for different stages of our sleep cycle.

How do the pons and mesencephalon influence sleep?

Answer 159

Pons and Mesencephalon: Control REM sleep through REM-on and REM-off neurons.

Question 160

Canada has one of the highest rates of multiple sclerosis (MS) in the world, with an estimated 90,000 Canadians living with the disease. On average, 12 Canadians are diagnosed with MS every day.

In what age range are most diagnoses made?

Answer 160

Most people are diagnosed with MS between the ages of 20 and 49 and the unpredictable effects of the disease will last for the rest of their lives.

Question 161

MS is a chronic autoimmune disease of the central nervous system. Since that includes the brain, spinal cord and optic nerve, MS can affect which four functions?

Answer 161

MS can affect vision, memory, balance and mobility.

Question 162

How does MS affect the nervous system?

Answer 162

The disease attacks myelin, the protective covering of the nerves, causing inflammation and often damaging the myelin. Myelin is necessary for the transmission of nerve impulses through nerve fibres. If damage to myelin is slight, nerve impulses travel with minor interruptions; however, if damage is substantial and if scar tissue replaces the myelin, nerve impulses may be completely disrupted, and the nerve fibres themselves can be damaged.

Question 163

MS is unpredictable and may cause symptoms such as ?

Answer 163

Extreme fatigue

Lack of coordination

Weakness

Tingling

Impaired sensation

Vision problems

Bladder problems

Cognitive impairment

Mood changes

Question 164

How is MS diagnosed?

Answer 164

Upon initial presentation of symptoms, refer to a neurologist.

Neuro will conduct a full medical history and a neurological examination to assess things like eye movement, strength and coordination. To reach a confirmed diagnosis of MS, the neurologist may employ additional tests, such as a Magnetic Resonance Imaging (MRI) scan which looks for tissue damage in the brain.

Question 165

Is MS fatal? What is the expected prognosis

Answer 165

MS is not fatal for the vast majority of people living with the disease.

Most people who have MS can expect a normal or near-normal lifespan, thanks to improvements in symptom management and the MS disease-modifying therapies.