Neurocognitive Disorders In Late Life PDF

Summary

This document describes neurocognitive disorders, specifically focusing on delirium, in late life. It touches on symptoms, causes, and differentiating from other conditions like dementia. It is a useful resource for understanding late-life cognitive health conditions.

Full Transcript

Chapter 9: Neurocognitive
Disorders in Late
Life

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Delirium
 Rapid decline in cognitive functioning in response to a
substantial change in one’s physical condition.
 Impairment in attention and orientation that develops
rapidly and is caused by a medical condition (American
Psychiatric Association, 2013).
 Impairment is shown in at least one other area of
cognitive functioning, such as memory, language, or
visuospatial skills.

American Psychiatric Association. (2013). Diagnostic and statistical manual of mental disorders: DSM-5. Washington,
DC: Author.

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Delirium (cont’d)
 Symptoms fluctuate throughout the day.
 Common causes: infections, metabolic abnormalities,
and medication changes.
 Effects can linger long after the cause is established and
treated.

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 Differentiating Delirium
From Dementia
 “Delirium unless proven otherwise.”
 Delirium has more rapid onset.
 Delirium associated with acute medical conditions;
dementia occurs more independently of medical
condition.
 Delirium can lead to hallucinations.
 Delirium impairs orientation to time or place.
 Delirium disrupts the sleep–wake cycle.

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 Delirium and Urinary Tract
Infections (UTIs)
 Chae and Miller (2015) found that 19.4% of patients
with delirium had a UTI.
 They also found that 11.2% of patients with dementia
had UTIs.

Chae, J. H. J., & Miller, B. J. (2015). Beyond urinary tract infections (UTIs) and delirium: A systematic review of UTIs
and neuropsychiatric disorders. Journal of Psychiatric Practice, 21(6), 402–411. doi:10.1097/PRA.0000000000000105

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 Delirium and Urinary Tract
Infections (UTIs) (cont’d)
 Balogun and Philbrick (2014) found that patients with
delirium had rates of UTI ranging from 25.9% to 32%,
compared to 13% of hospitalized patients without
delirium.
 Among patients with UTIs, rates of delirium ranged from
30% to 35%, and among hospitalized patients without
UTIs, rates ranged from 7.7% to 8%.

Balogun, S. A., & Philbrick, J. T. (2014). Delirium, a symptom of UTI in the elderly: Fact or fable? A systematic review.
Canadian Geriatrics Journal, 17(1), 22–26. doi:10.5770/cgi.17.90

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Delirium and Dementia
 While clinicians must distinguish between dementia and
delirium, it is important to note that
‒ Dementia increases the risk of delirium.
‒ Delirium among older adults increases the risk of dementia.

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Diagnostic Terminology
 Neurocognitive disorder, dementia, MCI :
 All refer to a syndrome of cognitive and/or behavioral
symptoms.
 With a variety of underlying causes.
 DSM-5 includes specifiers of “probably due to” or
“possibly due to” to reflect our ability to specify the
underlying probable cause with some degree of
accuracy.

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“Dementia”
 Decline from a prior level of cognitive functioning.
 Severe enough to interfere with everyday activities to
the extent that one becomes dependent on others for
help in these areas (e.g., managing finances, preparing
meals, managing medications).
 Alzheimer’s disease is one of many biological processes
that can cause this.
 DSM-5 uses the term major neurocognitive disorder
instead of dementia.

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Mild Cognitive Impairment (MCI)
 Other terms have included:
‒ Cognitive impairment, not dementia (CIND)
‒ Cognitive impairment not otherwise specified (NOS)
‒ Mild neurocognitive disorder

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 National Institute on Aging
(NIA)/Alzheimer’s Association (AA)
Diagnostic Criteria for MCI
(Albert et al., 2011)
 Set of criteria expanded awareness that:
‒ One can have Alzheimer’s disease but without symptoms
severe enough to be considered “dementia.”
‒ Other conditions in addition to Alzheimer’s disease can cause
MCI or dementia.
‒ While memory is usually first cognitive ability to show decline,
sometimes patients first show decline in other areas (e.g.,
language or visuospatial ability).

Albert, M. S., DeKosky, S. T., Dickson, D., Dubois, B., Feldman, H. H., Fox, N. C.,... Phelps, C. H. (2011). The diagnosis of mild
cognitive impairment due to Alzheimer’s disease: Recommendations from the National Institute on Aging—Alzheimer’s
Association workgroups on diagnostic guidelines for Alzheimer’s disease. Alzheimer’s & Dementia, 7, 270–279.
doi:10.1016/j.jalz.2011.03.008
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Mild Cognitive Impairment
 Some professionals specify:
‒ Amnestic MCI versus nonamnestic MCI, depending on which
cognitive domain is affected.
‒ Single-domain MCI versus multidomain MCI—one can be
impaired in more than one domain but it is not considered
dementia until it interferes with everyday living.
‒ DSM-5 mild neurocognitive disorder does not include these
specifications.

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 Mild Cognitive Impairment
(cont’d)
 Usually associated with Alzheimer’s disease, so
 DSM-5 uses the term “mild neurocognitive disorder” to
reflect how other conditions can cause this syndrome,
such as strokes, TBIs, or conditions such as Parkinson’s
disease.

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Prevalence of Dementia
 According to Plassman et al. (2007):
 5% among individuals aged 71 to 79 years
 24% in individuals aged 80 to 89
 37% of people aged 90 and older
 Well-known risk factors include low levels of education
and vascular risk factors such as hypertension and
diabetes.
 35.6 million people throughout the world had dementia
in 2010.

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Prevalence of Dementia (cont’d)
 This number is expected to double every
20 years, so that by 2030, 65.7 million
people will have dementia.
 115.4 million will have it by 2050 (Prince
et al., 2013).
 The number of people with dementia is
increasing, but the prevalence rate of
dementia may be declining (Wu et al.,
2017).
Prince, M., Bryce, R., Albanese, E., Wimo, A., Ribeiro, W., & Ferri, C. P. (2013). The global prevalence of dementia: A systematic
review and metaanalysis. Alzheimer’s & Dementia, 9, 63–75.
Wu, Y. T., Beiser, A. S., Breteler, M. M. B., Fratiglioni, L., Helmer, C., Hendrie, H. C.,... Brayne, C. (2017). The changing
prevalence and incidence of dementia over time—current evidence. Nature Reviews Neurology, 13(6), 327–339.
doi:10.1038/nrneurol.2017.63

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Causes of Neurocognitive Disorders
 When autopsies are performed on people who had
dementia, patients usually are found to have more than
one cause.
 More than half of the individuals with dementia were
found to have multiple etiologies, and only 30% had
Alzheimer’s disease alone (Schneider
et al., 2007).

Schneider, J. A., Arvanitakis, Z., Bang, W., & Bennett, D. A. (2007). Mixed brain pathologies account for most
dementia cases in community-dwelling older persons. Neurology, 69, 2197–2204.

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Traumatic Brain Injuries
 Adults aged 65 and older, children aged 0 to 4 years,
and adolescents aged 15 to 19 years are the most likely
to experience traumatic brain injuries (TBIs).
 The highest rates of TBI-related hospitalizations and
death occur among adults aged 75 years and older.
 Rates of TBI increase with advancing age, with the
highest rates among adults aged 85 and older.
 Most common cause of TBIs among older adults are falls
(60.7% of TBIs among adults aged 65 and older,
followed by 7.9% caused by motor vehicle accidents).
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Traumatic Brain Injuries (cont’d)
 Contracoup damage: When part of the brain opposite
the side that was struck suffers damage. For example,
being struck on the left side pushes the right side of the
brain into the skull, causing damage to the right side
also.
 Common nontraumatic causes of brain injury include
brain tumors and anoxia (oxygen deprivation).

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Alzheimer’s Disease
 Involves the development of plaques made of amyloid
(Aβ) and neurofibrillary tangles, made of tau.
 Amyloid plaques develop between neurons and interfere
with communication between neurons.
 Microtubules in cells become twisted and develop into
neurofibrillary tangles. Neurons lose their structure.
 Cognitive decline and impairment are more associated
with the number of neurofibrillary tangles than plaques.

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Alzheimer’s Disease (cont’d)
 Neurofibrillary tangles tend to develop in the
hippocampus, entorhinal cortex, and other parts of the
temporal lobe, before spreading to other parts of the
brain, including the nucleus basalis of Meynert in the
forebrain.
 The nucleus basalis of Meynert contributes to the
production of acetylcholine, and the supply of
acetylcholine decreases.
 As these areas degenerate, memory declines.

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Alzheimer’s Disease: Medications
 Because of the breakdown of acetylcholine, and its
importance in memory, current pharmacological
treatments attempt to prevent the breakdown of
acetylcholine.
 Acetylcholinesterase, or cholinesterase, is an enzyme
that breaks down acetylcholine.

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 Alzheimer’s Disease:
Medications (cont’d)
 By inhibiting cholinesterase, the amount of
acetylcholine is increased, which should improve
memory functioning.
 Cholinesterase inhibitors such as donepezil,
galantamine, and rivastigmine are commonly prescribed
for patients suspected of having Alzheimer’s disease.

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 Alzheimer’s Disease:
Medications (cont’d)
 Another medication, memantine, works as a
N-methyl-D-aspartate (NMDA) receptor antagonist that
is meant to decrease glutamate activity.
 Both these classes of medications may lead to small
improvements in functioning in patients with dementia,
but cholinesterase inhibitors have side effects including
weight loss and syncope in older adults.

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Alzheimer’s Disease
 Cannot be diagnosed definitively until autopsy of the
affected individual’s brain, because of the obvious risk
in obtaining a biopsy of brain tissue in a living person.
 Therefore, clinicians make diagnoses such as “major
neurocognitive disorder probably due to Alzheimer’s
disease” or “dementia of the Alzheimer’s type” when
Alzheimer’s disease seems the most likely etiology.

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Alzheimer’s Disease (cont’d)
 Many people who are cognitively intact throughout life
are nonetheless found to have Alzheimer’s disease in
their brains at autopsy.
 How to answer a patient when they ask “So do I have
Alzheimer’s disease or not?”

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Amyloid Angiopathy
 Amyloid plaques also develop in the arteries and
capillaries of the brain, which is known as amyloid
angiopathy.
 Amyloid angiopathy can cause cerebral hemorrhages to
occur, and it can also cause the gradual development of
cerebral microinfarctions.

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Alzheimer’s Disease: Genes
 A small proportion of people develop Alzheimer’s
disease through mutations in:
‒ The amyloid precursor protein (APP) gene on chromosome 21
‒ Presenilin 1 (PSEN1) on chromosome 14
‒ Presenilin 2 (PSEN2) on chromosome 1
 These rare mutations lead to development of the
disease, as early as one’s 40s or 50s.

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 Alzheimer’s Disease:
Genes (cont’d)
 The ε4 form of Apolipoprotein E (ApoE ε4) increases the
probability of developing Alzheimer’s disease, but does
not ensure that one will develop it.
 DSM-5 stipulates that ApoE ε4 is a risk factor but
neither necessary nor sufficient for Alzheimer’s disease
to occur.

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Alzheimer’s Disease: Biomarkers
 Biomarker: A quantifiable representation or marker of a
specific disease process.
 Examples for AD include neuroimaging findings, levels
of a chemical in cerebrospinal fluid (CSF), or
neuropsychological test scores.

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 Alzheimer’s Disease:
Biomarkers (cont’d)
 Well-known AD biomarkers include:
‒ Structural MRI (atrophy in medial temporal lobe)
‒ Amyloid PET
‒ Fluorodeoxyglucose (FDG)–PET
‒ CSF levels of Aβ
‒ CSF levels of tau
 CSF levels of Aβ and tau are obtained through lumbar
punctures, in which a needle is inserted between two
lumbar vertebrae.

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 Alzheimer’s Disease:
Biomarkers (cont’d)
 NIA /AA criteria place the biomarkers for Alzheimer’s
disease into two categories:
‒ Biomarkers of Aβ protein deposition, including low CSF levels
of Aβ and positive PET amyloid imaging
‒ Biomarkers of “downstream” neuronal degeneration or injury,
such as elevated CSF tau (including total tau and
phosphorylated tau), decreased FDG uptake on PET in
temporoparietal cortex, and disproportionate atrophy in the
temporal and parietal cortex shown on structural MRI

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 Alzheimer’s Disease:
Biomarkers (cont’d)
 It is important to recognize that biomarkers do not
measure one’s memory or other functional abilities.
 Thus, they cannot tell us if one has MCI or dementia.
 They can only tell us if one has a disease.

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 Alzheimer’s Disease:
Memory Symptoms
 Decline in memory is usually the first symptom.
 Patients can remember events from long ago but forget
recent events.
 As the hippocampus deteriorates, the brain’s ability to
form new memories declines.

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 Alzheimer’s Disease:
Memory Symptoms
(cont’d)
 However, memories or knowledge already established
years ago remain unaffected by the disease until late in
its course.
 Patients may forget recent conversations, the route to
return home, or how to operate a new appliance.

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 Alzheimer’s Disease:
Cognitive Symptoms
 Intact social functioning often enables the patient to
compensate for memory loss (e.g., by talking around a
question asked, rather than answering it, when they do
not know the answer).
 This can mask the symptoms of this and prevent loved
ones or acquaintances from noticing a decline in the
patient’s memory.

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 Alzheimer’s Disease:
Language Symptoms
 Patients often develop difficulty finding words in
conversations.
 Patients often use circumlocutions when they cannot
recall a word, using other words or phrases to convey
the desired word.

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 Alzheimer’s Disease:
Behavioral Symptoms
 As the disease spreads to the frontal lobes, patients
show behavioral changes in response to damage to this
area, such as:
‒ Poor social comportment (e.g., swearing, rude statements,
inappropriate sexual comments)
‒ Poor planning (e.g., difficulty planning a meal or a set of
errands)
‒ Poor decision making (e.g., poor financial decisions)
‒ Impulsivity (e.g., unnecessary online purchases, engaging in
extramarital affairs)

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 Alzheimer’s Disease:
Visuospatial Symptoms
 Alzheimer’s disease eventually intrudes into the
posterior temporal lobes and parietal and occipital
lobes.
 Patients may misperceive important visual stimuli, such
as picking up a television remote when the phone is
ringing, or being unable to find items they wanted to
purchase in the grocery store.
 Visual perceptual problems may lead to difficulty
entering information correctly in a checkbook or
noticing that their bathroom is dirty.
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 Alzheimer’s Disease:
Posterior Cortical Atrophy
 Occasionally Alzheimer’s disease develops first in places
like the occipital lobe or posterior temporal lobe,
causing posterior cortical atrophy.
 Degeneration of the occipital lobes leads to deficits in
visuospatial skills.
 Early symptoms can include difficulty recognizing faces,
finding things in the kitchen, house, or grocery store, or
difficulty assembling new furniture.

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Lewy Body Disease
 Lewy body disease and Parkinson’s disease are
intertwined; cognitive impairment in people with
Parkinson’s disease results from the accumulation of
Lewy bodies.
 If cognitive symptoms develop before the onset of
motor symptoms, the condition is known as Lewy body
disease.
 If cognitive symptoms develop after Parkinson’s disease
is established, then the cognitive symptoms are
attributed to Parkinson’s.
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Lewy Bodies
 Named after Frederick Lewy who discovered them in
1912.
 Small circular bodies found in the neurons of people
with Parkinson’s disease and Lewy body disease.
 Composed of alpha-synuclein (α-synuclein).

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Lewy Bodies (cont’d)
 May develop first in the reticular formation, followed by
the brainstem, the limbic system, and then the
neocortex.
 Biomarker may be amount of α-synuclein in CSF.
 Often misdiagnosed as Alzheimer’s disease

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Lewy Body Diagnosis in DSM-5

Consists of Core features and Suggestive features,
and
Probable = 1 core feature + (1 core or 1 suggestive
feature)
Core features:
Possible = 1 core feature Suggestive features:
or 1 suggestive feature
 Fluctuating cognition Rapid eye movement


(REM) sleep behavior
 Visual hallucinations disorder
 Severe sensitivity to
 Parkinsonism
antipsychotic medications

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 Lewy Body Disease:
Cognitive Symptoms
 Impairments are common in visuospatial skills and
executive functioning.
 Including visuospatial impairment as a core diagnostic
criterion may improve sensitivity to the disease
(Tiraboschi et al., 2006).

Tiraboschi, P., Salmon, D. P., Hansen, L. A., Hofstetter, R. C., Thal, L. J., & Corey-Bloom, J. (2006). What best
differentiates Lewy body from Alzheimer’s disease in early-stage dementia? Brain, 129, 729–735.

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 Lewy Body Disease:
Cognitive Symptoms
(cont’d)
 Fluctuations in cognition can include (Ferman et al.,
2004):
‒ Daytime sleep of 2 or more hours
‒ Staring into space for long periods
‒ Daytime drowsiness/lethargy
‒ Episodes of disorganized speech

Ferman, T. J., Smith, G. E., Boeve, B. F., Ivnik, R. J., Petersen, R. C., Knopman, D.,... Dickson, D. W. (2004). DLB
fluctuations: Specific features that reliably differentiate DLB from AD and normal aging. Neurology, 62(2), 181–187.

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 Lewy Body Disease: Sleep
Disorder
 REM sleep behavior disorder: Acting out dreams during
REM sleep phase.
 Dreams often involve a perceived attacker.
 May develop from damage to the brainstem areas
involved in the control of REM sleep, such as the
reticular formation. These areas may be affected by
Lewy body disease earlier than other parts of the brain.

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Parkinson’s Disease
 First symptoms typically include a mild tremor while
hands are resting, muscular rigidity, and slowed
movements.
 Eventually poor balance, frequent falls, and difficulty
walking occurs.
 If cognitive impairment occurs after Parkinson’s disease
is established, then it is termed neurocognitive disorder
due to Parkinson’s disease.

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Vascular Disease
 Involves atherosclerotic plaques building up in cerebral
arteries, causing inadequate blood supply.
 When arteries become completely blocked, nearby brain
areas experience ischemia.
 Vascular disease can cause cognitive impairment
through a slow gradual buildup of ischemic damage.
 Patients can also suffer a large stroke.
 Infarction = Sudden death of brain tissue caused by
inadequate blood supply.

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Vascular Disease (cont’d)
 Most strokes are ischemic (blood supply closed off), and
approximately 13% are hemorrhages, or a breakage in
an artery causing blood to spill out.
 Patients typically show some recovery within weeks
after a stroke, but may be left with lingering cognitive
deficits.

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 Vascular Disease:
Cognitive Presentation
 If vascular disease builds up gradually and slowly,
declines may be seen first in processing speed and
executive functioning.
 Sudden strokes can cause impairments in language,
visual perception, attention, executive functioning,
and/or processing speed, depending on the location of
the stroke.

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 Frontotemporal Dementia
 Refers to a syndrome that results from several types of
pathology in the frontal and/or temporal lobes.
 Most cases of frontotemporal lobar degeneration are
caused by the:
‒ Microtubule-associated protein tau (MAPT)
‒ TAR DNA-binding protein with molecular weight 43 kDa (TDP-
43)
‒ Fused-in sarcoma (FUS) protein

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 Frontotemporal Dementia
(cont’d)
 Symptoms tend to develop in the late 50s, and patients
are typically diagnosed in late 50s or early 60s.
 Most common among aged 45 to 64, with 60% of cases
diagnosed in this age group.

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 Frontotemporal Dementia
(cont’d)
 Often mistaken as a new-onset psychiatric disorder
 Has a behavioral variant and language variant.
 Behavioral variant: Behavioral changes that interfere
with social/occupational functioning,
such as:
‒ Inability to inhibit socially inappropriate behaviors.
‒ Making poor decisions (e.g., risky financial decisions)
‒ Loss of initiative to complete basic activities of daily living
(e.g., bathing)

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 Frontotemporal Dementia
(cont’d)
 Language variant:
‒ Primary progressive aphasia: Development of language
impairments as first symptom
‒ Currently divided into nonfluent/agrammatic, semantic, and
logopenic subtypes
‒ Can involve nonfluent speech, poor word-finding, and/or loss
of semantic knowledge
‒ Can be caused by Alzheimer’s disease or frontotemporal
pathology

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 Alcohol-Related Dementia
 Can develop after years of excessive alcohol use.
 Might result from direct effects of alcohol, or from
deficiency of thiamine (vitamin B1), or both.
 People with a history of alcohol abuse also are more
likely to have histories of head injuries, use of other
substances, and vascular risk factors.
 This complicates the establishment of a direct
relationship between alcohol and cognitive impairment.

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