- Neurocognitive disorders include delirium, disorders due to Lewy bodies, Alzheimer's disease, frontotemporal disorders, vascular disorders, and traumatic brain injuries.
- Delirium involves an acute change in consciousness and cognition that fluctuates in severity. It is often caused by medical issues, medications, or substance withdrawal. Treatment focuses on resolving the underlying cause.
- Disorders like those due to Lewy bodies, Alzheimer's disease, and frontotemporal disorders cause progressive cognitive decline due to brain changes. Symptoms and severity vary by type. Management includes medications, environmental modifications, and supportive care.
- Vascular and traumatic brain injury disorders arise from disruptions to the brain's
2. NEURO-COGNITIVE DISORDERS
• Delirium
• Neuro cognitive disorder due to Lewy bodies
• Neurocognitive disorder due to Alzheimer disease.
• Frontotemporal neurocognitive disorder
• Vascular neurocognitive disorder
• Neurocognitive disorder due to traumatic brain injury
3. DELIRIUM
• Clouding state of consciousness in which a person has great
difficulty in concentrating, focusing, keeping attention and a
straightforward stream of thought.
• Delirium can often be traced to one or more contributing
factors, such as a
• severe or chronic medical illness,
• changes in your metabolic balance (such as low sodium),
• medication, infection, surgery, or alcohol or drug withdrawal.
4. SIGNS AND SYMPTOMS
• Disturbance of attention often manifested by reduced
ability to focus, direct, sustain and shift attention.
• Repetition of questions.
• Easily distracted by irrelevant stimuli.
• Disturbance of awareness manifested by reduced
orientation to environment and time.
5. • Signs and symptoms of delirium usually begin over a few
hours or a few days.
• They often fluctuate throughout the day, and there may be
periods of no symptoms.
• Symptoms tend to be worse during the night when it's dark
and things look less familiar.
7. TYPES OF DELIRIUM
• Hyperactive Or Hyper Alert Delirium
• The patient is hyperactive, aggressive, argumentative and
uncooperative.
• May appear to be responding to internal stimuli
• Frequently the people suffering come to our attention because they
are difficult to care for.
8. TYPES OF DELIRIUM
• Hypoactive or hypo-alert
• Person appears to be napping on and off throughout the day
• Unable to sustain attention when awakened, quickly falling back
asleep
• Misses meals, medications, appointments
• Does not ask for care or attention
• This type is easy to miss because caring for these patients is not
problematic to staff
9. TYPES OF DELIRIUM
• Mixed Delirium:
• This includes both hyperactive and hypoactive symptoms.
• The person may quickly switch back and forth from
hyperactive to hypoactive states.
• The most common types are hypoactive and mixed
accounting for approximately 80% of delirium cases
10. CAUSES OF DELIRIUM
• Delirium occurs when the normal sending and receiving of
signals in the brain become impaired.
• This impairment is most likely caused by a combination of
factors that make the brain vulnerable and trigger a
malfunction in brain activity.
• Delirium may have a single cause or more than one cause,
such as a medical condition and medication toxicity.
Sometimes no cause can be identified.
11. CAUSES OF DELIRIUM
• In a study of delirium in elderly patients, Francis and colleagues
identified five leading causes of delirium.
1. Fluid/electrolyte disturbance
2. Infection
3. Medication toxicity
4. Metabolic derangement
5. Sensory and environmental disturbance
12. DEMENTIA VS. DELIRIUM
• Dementia has an insidious onset, chronic memory and
executive function disturbance, tends not to fluctuate.
• In delirium cognitive changes develop acutely and
fluctuate.
• Dementia has intact alertness and attention but
impoverished speech and thinking.
• In delirium speech can be confused or disorganized.
Alertness and attention wax and wane.
13. TREATMENTS
• First and foremost treat the underlying cause.
• Environmental interventions
• cues for orientation must be used e.g. (calendar, clock, family
pictures, windows),
• frequently reorient the patient,
• have family or friends visit frequently making sure they
introduce themselves,
• minimize staff switching.
14. NEUROCOGNITIVE
DISORDER DUE TO LEWY
BODIES
• Lewy bodies = microscopic protein deposits that damage brain
over time
• NCDLB is the newest dementia diagnosis with an incidence of
7 per 1,000 individuals among those aged 65 and older.
• Individuals with NCDLB are often misdiagnosed with NCD due
to Parkinson’s Disease.
• Both show similar motor and cognitive clinical symptoms.
15. • There are intense neurotransmitter deficits along the
dopaminergic and cholinergic pathways.
• In The cholinergic deficit, acetylcholine is responsible
for cognitive dysfunction
• whereas the dopamine deficit is responsible for motor
dysfunction.
16. CONTINUE..
• NCDLB can be differentiated from NCD due to
Parkinson’s Disease based on the chronological onset
of symptoms.
• Individuals with NCDLB will exhibit cognitive symptoms
before the onset of motor symptoms
17. CAUSES
• NCDLB results in a collection of proteins, called Lewy
bodies, that progress through the neuronal synapses.
• The functional deficits seen with NCDLB are greater
than NCD with Alzheimer Disease as a result of the
effects on motor and involuntary nervous systems.
18. TREATMENT
• When developing a plan for individuals with NCDLB, it is
important to modify care by having the patient or
caregiver rank the cognitive, emotional, and motor
difficulties by level of subjective distress.
• The medications are effective with many symptoms
including fluctuating cognition, hallucinations, and
mood disorders.
19. NEUROCOGNITIVE
DISORDER CAUSED BY
ALZHEIMER DISEASE
• Neurocognitive disorder caused by Alzheimer Disease (NCD due
to AD) is a slow developing non-reversible brain disorder that
results in a permanent loss of neurons and neuronal synapses.
• The loss of neurons is prevalent in the areas of the brain
responsible for memory, function, and cognition.
• Neuronal destruction comes from extracellular neurotic plaque
and neurofibrillary tangles inside neurons.
• Acetylcholine, which enables learning and memory, is also
decreased.
20. RISK FACTORS
• NCD due to AD is gender neutral i.e. occurrence rate is equal
both in males and females.
• Family history and age increase the risk of developing NCD
due to AD.
• The risk for an individual with a parent or sibling with NCD
due to AD increases as much as 30% with each afflicted family
member
21. TREATMENT
• Pharmacologic treatment of NCD due to AD includes 2
classes of pharmacologic treatment:
• cholinesterase inhibitors (CEIs)
• N-methyl-D-aspartic acid receptor antagonists.
• Although CEIs do not stop the disease trajectory, they
may slow the decline.
23. FRONTOTEMPORAL
NEUROCOGNITIVE
DISORDER
• It is a mental health condition characterized by abnormal
shrinkage in two parts of the brain, called the frontal and
temporal anterior lobes.
• This condition replaces an essentially equivalent illness,
known as Frontotemporal dementia, in DSM 5.
24. • The brain’s frontal and temporal lobes play a primary role in
maintaining brain function such as the ability to use language,
the ability to regulate behavior.
• The specific manifestation of the disorder depends upon the
particular portions of the frontal and temporal lobes that
undergo shrinkage, as well as the degree of shrinkage that
occurs at any given point in time.
25. SYMPTOMS
• Loss of the normal ability to make appropriate decisions or
control impulsive urges.
• loss of the ability to show empathy with others or develop
personal motivation
• changes in self grooming or eating habits.
26. SYMPTOMS
• Language- or speaking-related difficulties associated with the
disorder include:
• aphasia (loss of the ability to use or understand words).
• difficulties with normal body movement such as rigid or
trembling muscles, loss of the ability to coordinate the activity
of different muscles, unusually weak muscles, or swallowing
problems (rare occurrence of these symptoms)
27. TREATMENT
• Frontotemporal neurocognitive disorder is both incurable and
progressive.
• Gets worse over time.
• Doctors can potentially manage the effects of Frontotemporal
dysfunction through the use of medications i.e. types of
antidepressants.
28. VASCULAR
NEUROCOGNITIVE
DISORDER
• vascular neurocognitive disorder is a condition
characterized by disruptions in the brain’s blood supply
that lead to impairment of one or more aspects of a
person’s conscious brain functions.
• The DSM includes this as a replacement for a condition
previously identified as vascular dementia.
29. • The term “vascular” in vascular neurocognitive disorder
refers to the body’s system of blood vessels, known
medically as the vascular system or circulatory system.
• The disorder is named so because the impairments it
produces originate from some sort of reduction or
blockage in the supply of blood that normally passes
through the blood vessels called arteries and into the
brain’s tissues.
30. CAUSES
Stroke – a condition that occurs when a brain artery either gets
blocked or springs a leak of blood
Ongoing health problems that either decrease a blood vessel’s
general health or produce abnormal narrowing in a blood
vessel’s interior diameter.
Conditions that can trigger these damaging blood vessel
changes include
atherosclerosis (hardened arteries),
hypertension (high blood pressure)
diabetes
effects of the normal aging process.
31. TREATMENT
• Vascular dementia is incurable and inevitably shortens the
lives of affected individuals.
• However, doctors can potentially slow the disorder’s
progression or even stop its effects from growing
substantially worse over time
• treated with the help of certain medications originally
developed to treat Alzheimer’s disease. Examples of these
medications include a group of drugs known collectively as
cholinesterase inhibitors and a single drug called memantine.
32. NEUROCOGNITIVE DISORDER
DUE TO TRAUMATIC BRAIN
INJURY
• It is a mental health condition that sometimes arises in
the long-term outcome of a physical injury that results
in brain damage.
• Some people affected by neurocognitive disorder due to
traumatic brain injury experience symptoms that are
severe enough to degrade their ability to lead
independent lives
• Others experience milder symptoms and retain most of
their day-to-day mental function.
33. • Neurocognitive disorder due to a traumatic brain injury
comes in both major and mild forms.
• People with the major form of the disorder have
symptoms that the general public commonly refers to
as dementia (including such things as memory
problems, a declining ability to think logically, and a
declining ability to make decisions or control one’s
behavior).
• People with mild neurocognitive disorder due to a
traumatic brain injury don’t have dementia-like
symptoms; instead, they have less dramatic changes in
their mental function that can worsen over time.
34. DIFFERENCE BETWEEN MILD AND
MAJOR NEUROCOGNITIVE
DIORDER
• People with mild neurocognitive disorder have
impairments in their conscious brain functions
• Prominent enough to produce testing results lower than
those found in people unaffected by a disorder
• But not prominent enough to produce serious life
disruption.
35. CONTINUED….
• individuals with major vascular neurocognitive disorder
produce test results that are considerably lower than
those produced by individuals with the mild form of the
disorder
• Have impairments that at least partially eliminate their
ability to live successfully without some form of outside
care.