Alzheimer’s Disease

Question 1

Alzheimer’s disease
- Definition
- Prevalence of cases of dementia
- Age

Answer 1

Neurodegenerative disorder characterized by memory loss, impairment in thinking and reasoning, changes in behavs

60-70%

After 65 years old, doubling in risk every 5 years

Question 2

DSM-5 criteria for Alzheimer’s
- Mild neurocognitive disorder (MCI) due to AD
- Major neurocognitive disorder (dementia) due to AD

Answer 2

• Appears slowly + gradual progression
• MCI: 1+ cog domains impaired; intact ability to complete daily activities
• Dementia: 2+ cog domains impaired; impaired ability to complete daily activities

Question 3

Probable vs Possible Alzheimer’s

Answer 3

Probable:
- Evidence of AD genetic mutation
- OR impairment in memory + one other cog domain, progressive gradual decline in cognition, no other possible etiology

• Otherwise, possible AD diagnosed

Question 4

Diagnostic evaluation of AD:
- Detailed clinical history
- Neurological evaluation
- Neuropsychological evaluation
- Biomarker studies

Answer 4

• Memory loss as earliest and most prominent symptom; insidious onset and gradual progression
  —
• Physician evaluates for possible causes of cognitive decline (mild impairment on mental status screening if AD)
  —
• Longitudinal examinations at 6 month or 1 year intervals; reveal gradually progressive decline if AD)
  —
• PET imaging, MRI structural imaging, CSF, blood tests to rule out other possible causes

Question 5

CSF biomarkers of Alzheimer’s:
- Amyloid plaques (what, how it’s formed, how it’s hydrolyzed/cleaved, in abnormal conditions)
- Neurofibrillary tangles (tau protein, how tangles form, what they do)

Result of this?

Answer 5

• Insoluble deposits of beta-amyloid (AB) peptides
• Formed when amyloid precursor protein (APP) is cleaved by proteases beta-secretase and gamma-secretase
• Cleaved by beta-pathway (b-secretase and y-secretase produce insoluble AB) or alpha-pathway (a-secretase and b-secretase do not produce insoluble AB)
• Under abnormal conditions, b-pathway happens more and AB misfolds, aggregating into amyloid plaques which weaken communication at synapses
  ——
• Tau are in microtubules to stabilize them
• Tangles form through hyperphosphorylated tau which move from axons to cell bodies and form paired helical filaments; Aggregates misfolded tau and propagates across synapses into neurons to make healthy tau misfold
  —
• Build up of amyloid plaques and neurofibrillary tangles leads to breakdown of synapses and neuronal death
• Microglia activated by amyloid plaques can trigger inflammatory cytokines which damage neurons; can also remove synapses thru phagocytosis, leading neurons to die and synapse malfunction

Question 6

Where does amyloid pathology start + where does it spread to?
How many years does it happen before symptoms of Alzheimer’s?

How about tau pathology?

Answer 6

• Begin in medial prefrontal cortex (mPFC) and posterior medial regions (PCC/MPC)
• Spreads to association cortices before primary and sensory cortices (frontal, temporal, parietal), brainstem, then cerebellum
• 10-20 years before symptoms of AD, tapers off before MCI; appears before tau pathology and facilitates it
  —
• Begins in entorhinal cortex (ERC) in medial temporal lobe (MTL)
• Spreads thru hippocampus and other MTL regions, then ventral temporal cortex (VTC) and cingulate cortex (CC), then neocortex and medial prefrontal cortex (cPFX)
• Doesn’t taper off; linked to brain atrophy

Question 7

Where is early atrophy seen in Alzheimer’s disease? (5)
What function is reduced?

Answer 7

Entorhinal cortex
Hippocampus
Medial parietal cortex
Lateral parietal cortex
Inferior temporal cortex
—
Cholinergic function (acetylcholine), caused by basal forebrain cell loss
- Involved in attention, learning, memory

Question 8

Stages of Alzheimer’s disease:
- Preclinical
- Mild cognitive impairment (MCI)
- Mild dementia
- Moderate dementia
- Severe dementia

Answer 8

PRECLINICAL:
- Amyloid and tau pathology begin
- Usually asymptomatic or only subtle cog decline
—
MCI:
- Decline in 1+ cog areas but can still perform daily activities
- High risk if developing dementia
—
MILD:
- Usually when AD diagnosed
- Impaired memory for recent events, judgment and problem solving, and difficulty organizing and expressing thoughts
- Impacts daily functioning but only require minor help
—
MODERATE:
- Greater memory loss (personal details, filling in gaps with made up stories), poorer judgment and deepening confusion (confusing family, surroundings), changes in personality and behav (agitated, delusion/hallucinations)
- Need help with daily activities, including self-care
—
SEVERE:
- Impaired communication (words that don’t make sense), motor function (unable to walk without assistance, unable to sit/hold head up without support, muscles rigid and reflexes abnormal, loss of ability to swallow and control bladder/bowel)
- Limb and whole body contractures until eventual fetal position
- Need assistance with personal care
- Death from pneumonia or aspiration

Question 9

Protective factors (3)
Risk factors (5)
(Alzheimer’s)

Answer 9

High education attainment
Physical exercise
Dietary factors (low saturated fats)
—
Age
Genetics (early onset familial AD, ApoE4)
Low education attainment
Cardiovascular disease and risk factors (hypertension and obesity)
Traumatic brain injury

Question 10

Cognitive reserve hypothesis
(Alzheimer’s)

Answer 10

Ability to make flexible and efficient use of available brain reserve when performing tasks
- Having cognitively active lifestyles increases connections between neurons, enabling the brain to compensate for pathological changes by using alt networks to complete cognitive tasks
- Higher reserve means can tolerate more AD pathology before clinical symptoms become apparent

Question 11

Sporadic vs Familial Alzheimer’s disease

Answer 11

Sporadic - Occurs irregularly without inherited pattern
Familial:
- Early onset - Mutations in amyloid precursor protein (APP) gene, presenilin 1 (PSEN1) gene, presenilin 2 (PSEN2) gene
- Late onset - E4 allele of apolipoprotein E (ApoE) gene, transports cholesterol between cells in nervous system but assoc with accumulation of AB

Question 12

Alzheimer’s disease memory impairment:
- Declarative vs Procedural
- Recent vs Remote info

Answer 12

• Declarative most impaired, procedural better preserved
• Recent memory impaired, remote preserved (esp emotionally toned memories) until late stages

Question 13

Orientation (4)
(Alzheimer’s)

Answer 13

To person: Awareness of name, age, date of birth
To place: Awareness of city, building, address
To time: Awareness of day, year, season
To situation/circumstances: Awareness that an event has taken place and the impact of that event

First to last impacted: Time, place, pwrson

Question 14

Language impairment in Alzheimer’s:
- Anomia
- Global aphasia

Answer 14

Starts w/ tip of tongue exp that become severe enough to interrupt flow of speech
- Leads to anomia (word-finding difficulty)
—
Reading skill and verbal comprehension worsen, prosody (rhythm, melody, emotional intonation) affected in late stage
- Global aphasia = Severe impairment across all aspects of language

Question 15

Executive dysfunction and impaired higher-order visual processing in Alzheimer’s disease

Answer 15

• Problems w/ judgment, problem solving, planning, abstract reasoning
• Manifests as failure to manage complex tasks and poor task persistence + behavioural disinhibition (maybe from disorientation)
  —
• Agnosia: Impaired recognition (may evolve into prosopagnosia, impaired facial recognition)
• Impaired spatial processing: Spatial disorientation
• Impaired visual attention: Impaired visual exploration

Question 16

Praxis (motor planning)
- Ideation, Motor planning, Execution, Feedback and adaptation
- Depends on ability to integrate info from what sensory systems? (4)

Apraxia
- Ideomotor apraxia
- Limb-kinetic apraxia
(Alzheimer’s)

Answer 16

• Ability to conceptualize, plan, organize, and carry out motor actions
• Ideation: Conceptualize task
• Motor planning: Plan steps to perform task
• Execution: Perform task
• Feedback and adaptation: Collect feedback and make corrections
• Visual, proprioceptive, vestibular, tactile
  —
• Apraxia: Difficulty performing learned skilled and purposeful movements despite intact primary sensory and motor symptoms
• Ideomotor apraxia: Difficulty translating idea into proper spatially directed action (most common in AD)
• Limb-kinetic apraxia: Inability to position parts of body in space (common in late stage AD)

Question 17

Alzheimer’s pathology targets distinct memory networks in aging brain (Maass et al., 2019)
- Goal
- Which areas have high tau or amyloid-B
- Test results
- Tau pathology linked to what

Answer 17

Goal: Test if anterior-temporal and posterior-medial network are vulnerable to tau and amyloid-B deposition in progression from aging to AD + if reflected in domain-specific behav deficits or neural dysfunction
—
Anterior-temporal -> High tau burden
Posterior-medial -> Amyloid-beta dominated
—
Tau+ older adults showed lower mnemonic discrimination of object relative to scene images
- Higher anterior tau - Worse object performance
- Higher posterior amyloid-B - Increased task activation in both systems but loss of functional specificity
—
Progression of tau pathology is linked to aberrant activation and dedifferentiation if specialized memory networks that is detrimental to memory function

Question 18

Basal forebrain volume reliably predicts cortical spread of Alzheimr’s degeneration (Fernandez-Cabello et al., 2020)

Answer 18

NbM -> Entorhinal cortex
vs
entorhinal cortex -> NbM