Neurodegenerative Diseases Pt. 2

Question 1

What is the second most common form of early dementia (<65 yrs) after AD?

Answer 1

Frontotemporal Degeneration (FTD)

Question 2

What is the FTD?

What is the difference between FTD and FTLD?

Answer 2

• FTD: Focal degeneration in frontal and anterior temporal lobes
• FTD refers to the clinical frontotemporal dementia syndrome
• FTLD (frontotemporal lobar degeneration) refers to the pathologic entitiy

Question 3

What percentage of FTD are sporadic?

Answer 3

50%

Question 4

What mutations are associated with familial cases of FTD?

Answer 4

Inherited as autosomal dominant

• Tau gene (MAPT) – accumulation of tau
• Progranulin (GRN) – accumulation of TDP-43 protein (DNA binding protein)
• C9orf72: results in accumulation of TDP-43 protein

Question 5

What are the two clinical subtypes of FTD?

Answer 5

Behavioral variant FTD (50%) - Bi frontal lobe atrophy

Primary progressive aphasia - Progressive nonfluent aphasia or Semantic variant

Question 6

What are the characteristics of Behavioral Variant FTD?

Answer 6

• Socially inappropriate behavior, loss of manners, careless actions
• Early apathy or inertia
• Early loss of sympathy or empathy
• Early perseverative, stereotypes, or compulsive/ritualistic behavior
• Hyperorality and dietary changes (crave sweets)

Question 7

What are the two subtypes of Primary Progressive Aphasia and what are the characteristics associated with the disease?

Answer 7

• Progressive nonfluent aphasia (PNFA 25%) – left peri-sylvian atrophy on scan
• Semantic variant (20-25%) – bilateral anterior temporal lobe atrophy
• Subtypes
  
  • Fluency; comprehension; repetition
  • Fluency worst in nonfluent aphasia
  • Comprehension worst in semantic variant

Question 8

Frontotemporal lobar degeneration (FTDL)

What changes are seen in the brain?

What are the microscopic findings?

Answer 8

• What changes are seen in the brain?
  
  • Frontal and temporal lobe atrophy
• What are the microscopic findings?
  
  • Tauopathies - accumulation of tau protein
  • Accumulation of TDP-43 (cytoplasmic protein accumulations in frontal/temporal lobes)

Question 9

What is Pick’s disease? What are it’s characteristics?

Answer 9

A “Tauopathy” characterized by:

• Atrophy of frontal and temporal lobes
• Severe neuronal loss in the frontal and temporal cortex
• Pick bodies (round cytoplasmic inclusion in neurons containing abnormal tau filaments)

Question 10

What are the clinical features of parkinsonism?

Answer 10

• Rigidity
• Bradykinesia (slowed movements)
• Tremor
• Mask facies, stooped posture, festinating gait (progressively shortened accelerated steps)

Question 11

Parkinson’s Disease (PD)

What is the strongest risk factor?

What is the lifetime risk?

Answer 11

• Age is the strongest risk factor
• 1/40 lifetime risk

Question 12

Is Parkinson’s Disease predominantly sporadic or familial?

Answer 12

Sporadic

Question 13

What are the mutations described in PD familial cases?

Answer 13

• Parkin gene: chromosome 6 - younger onset
• α-synuclein gene: rare mutation in families with autosomal dominant familial PD (major component of Lewy bodies)

Question 14

What environmental toxins and pesticides can cause PD?

Answer 14

• Manganese
• Carbon monoxide
• Rural living (well water)
• Paper mills
• Hydrocarbons
• Residential use of pesticides
  
  • caffeine and cigarette smoking may be protective

Question 15

Describe a tremor in relation to PD

Answer 15

• Most common presenting symptom
• Typically asymmetric and low frequency
• Pill-rolling type of movements
• Most often affects the distal upper extremities
• Chin tremor specific for PD

Question 16

Describe Bradykinesia in relation to PD

Answer 16

• Slowness or lack of movement
• Micrographia (small cramped handwriting)
• Hypophonia (soft speech)
• Hypomimia (reduced racial expression)
• Decreased blink rate
• Decreased arm swing with walking
• Shortened stride length

Question 17

Describe postural instability and gait disturbance in terms of PD

Answer 17

• Early: manifests as dragging of one leg or stooped posture
• Later: gait problems can be severe

Question 18

What are the nonmotor symptoms in the premotor phase of PD?

Answer 18

• Sleep: REM behavior disorder
• Olfactory loss
• Dysautonomia

Question 19

What are some supportive criteria in diagnosing PD?

Answer 19

• Unilateral onset
• Tremor
• Excellent response to levodopa (Only confirmatory test)
• Clinical course for 10 years or more

Question 20

What are some changes to the brain in PD?

Answer 20

• Pallor of substantia nigra
• Neuronal loss and Lewy bodies in substantia nigra
• Lewy bodies (eosinophilic cytoplasmic neuronal inclusions containing α-synuclein)

Question 21

What are the characteristics and diagnostic clinical features of Dementia with Lewy Body (DLB)?

Answer 21

Characterized by dementia with ant two of the following three core clinical features

1. Fluctuating cognition or level of consciousness
2. Visual hallucinations
3. Parkinsonian motor signs

Question 22

What features are suggestive of DLB?

Answer 22

• Rapid eye movement
• Neuroleptic sensitivity
• Low dopamine transporter uptake in the basal ganglia

Question 23

How are DLB and PD different in terms of clinical presentation?

Answer 23

• DLB – clinical features of dementia (first sign)
• PD – patients present with parkinsonism signs and symptoms
  
  • Eventually develop dementia (5x more frequent than controls)
  • Pathologic correlate of dementia is Lewy body presence in cortex

Question 24

What microscopic changes in the brain are seen in Dementia with Lewy bodies?

Answer 24

• Neuronal loss and Lewy bodies in substantia nigra
• Lewy bodies in the cerebral cortex

Question 25

How are dopaminergic cells reduced in Parkinson’s disease?

Answer 25

• Dopaminergic cells of substantia nigra are selectively vulnerable because:
  
  • Dopamine (with MOA) → DOPAC + H2O2 → ROS (fenton reaction)
• As cells age, the accumulation of years of free radicals reduces the number of DA cells

Question 26

What is the Mechanism of L-DOPA?

Answer 26

• Restore levels of dopamine in the basal ganglia
• Uses amino acid transporters to enter the brain
• Decarboxylated to dopamine in dopamine cells and other neurons that express L-aromatic amino acid decarboxylase (L-AAAD)

Question 27

What are some pharmacokinetic considerations for L-DOPA and how can these be a problem?

Answer 27

• At most 2% of an oral dose of L-DOPA gets into the brain
  
  • Most is metabolized to dopamine by peripheral L-AAAD or COMT
  • Lots of dopamine peripherally leads to side effects

Question 28

How are the issues with L-DOPA administration overcome?

Answer 28

• L-DOPA is almost always co-administered with carbidopa (an inhibitor of L-AAAD) that does not cross the BBB
  
  • Results in increased dose in the CNS, decreased peripheral side effects
• L-DOPA now co-administered with entacapone (COMT inhibitor)
  
  • Entacapone does cross BBB (preserves concentrations in brain)

Question 29

What is the half life of L-DOPA?

Why does it’s absorption depend upon GI contents?

Answer 29

• Half life of L-DOPA is very short (1-3 hours)
• Absorption is dependent on GI contents because it is taken up by amino acid transporters which may be saturated after a meal

Question 30

How effective is L-DOPA in treating Parkinson’s disease?

When is treatment started?

Answer 30

VERY EFFECTIVE - if it doesn’t help the patient probably doesn’t have Parkinson’s disease in the first place

Best results are obtained in the first few years of treatment so L-DOPA is not used until symptoms cause functional impairment

Question 31

What are some side effects of L-DOPA due to its conversion to dopamine?

Answer 31

• CNS effects (not alleviated by carbidopa)
  
  • Dyskinesias (too much movement); Dementia, confusion
• GI: nausea
• Cardiovascular (hypotension, arrhythimas, HTN)

Question 32

What are some potential drug interactions with L-DOPA?

Answer 32

• Pyridoxine (Vit B6: increases metabolism of dopamine in periphery)
• MAO inhibitors (can cause hypertension)
• Halothane (sensitizes the heart to arrhythmias)
• Antipsychotics that are dopamine receptor antagonists

Question 33

What are some contraindications to L-DOPA use?

Answer 33

• Glaucoma
• Psychosis
• Cardiac disease that involves arrythmias
• Malignant melanoma

Question 34

What is the main reason for the use of dopamine agonists instead of L-DOPA?

Answer 34

L-DOPA treatment can result in increased oxidative stress due to its natural metabolism

Question 35

What advantages do dopamine receptor agonists have over L-DOPA?

Answer 35

• No enzymatic conversion is needed
• Selectivity for receptor subtypes
• Longer half-life
• Less DA-dependent oxidative stress

Question 36

What are the two types of dopamine agonists and which receptors do they activate?

Answer 36

• Pramipexole and Ropinerole: selective D2 agonists; most commonly used
• Apomorphine – high affinity D4 agonist – moderate affinity for D2, D3, D5

Question 37

What is an “off episode” and how is it dealt with?

Answer 37

An “off” episode occurs when your Parkinson symptoms still exist, even though you take medicines to control them

Treated with subcutaneous injection of amorphine

Question 38

Which treatment (L-DOPA or dopamine agonists) are the initial therapy in young patients? Which is used in the elderly?

Answer 38

Direct agonists are the initial therapy in young patients

L-DOPA in the elderly

Question 39

What are the side effects of dopamine agonists?

Answer 39

• Nausea
• Fatigue
• Sudden attacks of daytime sleep
• CNS toxicity (confusion)
• Amorphine can cause increased QT prolongation and injection site reactoins

Question 40

Why are MAO inhibitors not as effective as other drugs in the treatment of Parkinson’s disease?

Answer 40

MAO in the liver is essential to metabolize tyramine that is injested; tyramine is a sympathomimetic

Question 41

What are the two forms of MAO and where are they found?

Answer 41

MAO-A is found in the GI tract and liver

MAO-B in brain

Question 42

What are the MAO-B inhibitors and how are they effective against PD?

Answer 42

Selegilline and Rasagiline

• MAO inhibition will prolong the action of dopamine; and may also reduce oxidative stress on neurons

Question 43

What is the clinical usefulness of a MAO inhibitor and when is it prescribed?

Answer 43

• Usually prescribed as soon as the disease is diagnosed (may reduce progression – benefit is modest)
• In more advanced disease, used together with L-DOPA to prolong its effective half life
• Anti-depressant (increases NE)

Question 44

What are the side effects of MAO inhibitors?

Answer 44

• Generally well tolerated
• In advanced disease – worsens side effects of L-DOPA
• Metabolized to amphetamine and methamphetamine (can cause anxiety and insomnia)
• Reduced SE when administered as an orally disintegrating tablet or as patch (avoid 1st pass metabolism)

Question 45

What are some adverse drug interactions associated with MAO inhibitors?

Answer 45

• When administered in combo with meperidine
• Tricyclic antidepressants
• Serotonin reuptake inhibitors (MAO inhibitors can ↑ serotonin)
• Can lead to serotonin syndrome (stupor, rigidity, agitation, hyperthermia)

Question 46

What are the COMT inhibitors?

What is their clinical usefulness?

Answer 46

• Tocapone (causes hepatotoxicity) – Has a relatively long half life and inhibits both peripheral and central COMT
• Entacapone – has a short half life and does not get into the CNS well; therefore is usually co-administered with L-DOPA to eliminate peripheral metabolism

Question 47

What side effects are associated with COMT inhibitors?

Answer 47

• Common due to increased dopamine:
  
  • nausea
  • orthostatic hypotension
  • vivid dreams
  • confusion, hallucinations

Question 48

What are the antimuscarinics? How do they work?

Answer 48

• Cholinergic interneurons in the striatum are normally inhibited by dopamine; loss of dopamine → overactivity of these neurons; this effect is blunted by antimuscarinics (Antagonist of striatal muscarinic receptors)
• Trihexyphenidyl; Benztropine
• Diphenhydramine (anti-histamine with anti-muscarinic “side effects”)

Question 49

How effective are the antimuscarinics? When are they used?

Answer 49

• Modest effectiveness: not good against bradykinesia
• 3rd choice – used when dopaminergic therapy is contraindicated (early disease; elderly)
• Can be used in combination with L-DOPA agonists so that their dose can be lower

Question 50

What are the side effects of the anti-muscarinics?

Answer 50

• Sedation; mental confusion
• Atropine-like side effects in the periphery

Question 51

What is Amantadine? How does it work in PD treatment?

Answer 51

Anti-viral agent

In PD, increases dopamine release and is mildly anticholinergic

Blocks NMDA receptors

Question 52

What is the effectiveness of Amantadine and when is it used?

Answer 52

• Less effective (short-lived benefits)
• Often given with L-DOPA or with anticholinergics
• Not useful when L-DOPA is ineffective

Question 53

What are some side effects of Amantadine?

When is it contraindicated?

Answer 53

• Dizziness, lethargy, sleep disturbances
• Can cause peripheral edema
• Sympathomimetic effects due to effects on catecholamine release
• Contradindicated in patients with congestive heart failure