Lecture 8: Increased Intracranial Pressure PDF

Summary

This lecture discusses increased intracranial pressure (ICP), including its causes, signs, and treatment. It covers various aspects such as pathophysiology, signs of elevated ICP, causes, generalized and focal brain injury, classifications of brain edema, herniation syndromes as well as treatment options and nursing management.

Full Transcript

Lecture 8: Increased Intracranial Pressure
ICP:
● Intracranial vault is composed of 3 components: Brain, Blood & CSF
● ↑ in size of any of the 3 compartments can → ↑ ICP
● Monro-Kellie rule: ↑ in one element must occur at expense of others

Normal intracranial pressure:
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Adults: 8 to 18 mmHg (15-22 cmH₂O)
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Children: ~ 10-20 cm H₂O & it’s even lower in babies
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ICP is not a static state

Pathophysiology of ICP:
● With ↑ ICP → BF & O₂ delivery may be compromised
● CPP = cerebral perfusion pressure → CPP = MAP - ICP
● Normal CPP = 80 to 100 mmHg
● < 70 = Inadequate
● ≤ 40 = Ischemia
● ≤ 30 = Cell death

Danger of ICP can disturbs brain function by:
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↓ CPP
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Transtentorial or foramen magnum herniation

Signs of ↑ ICP:
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Earliest and most reliable indicator = ↓ LOC
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Late sign = pupils dilated, fixed
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Cushing’s Triad = bradycardia, change in breathing, ↑ BP
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Ischemia or pressure on the brainstem is the reason
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Altered motor function:
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Hemiparesis
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Hemiplegia
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Decorticate: flexed to core of your body
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Decerebrate
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Loss of temperature control
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Headache
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Vomiting
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Abnormal posturing
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Abnormal CN findings: pupillary reaction (poor response to light, any size)
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Papilledema: later
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Bulging fontanelle (in infants) → awww 6raaggg
Respiratory changes:
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Depend on the level of brainstem involved:
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Diffuse Cortical involvement result in Cheyne-Stokes respiration: apnea alternating with
hyperventilation
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Midbrain: sustained regular, rapid & deep breathing, called → Central Neurogenic
Hyperventilation
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Pons: Apneustic Breathing. Breathing shows prolonged pause at end of inspiration
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Medulla: rapid & shallow respiration with ataxic breathing in the final stages
Causes of ↑ ICP:
Generalized brain injury:
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Hypoxia
Head injury
Metabolic
Infection
Toxins

Focal intracranial lesion:

Abscess CSF obstruction:

● Vascular: subdural, epidural, ICH, AVM
● Focal traumatic lesion
● Tumor

Complications of ↑ ICP:
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Herniation
●
Death
Classification of brain edema: check pics in lecture
Vasogenic:

Cytotoxic:

Interstitial:

● ↑ permeability of brain capillary
endothelial cells
● As in Tumor, abscess, hemorrhage,
infarction, contusion & meningitis
● It follows the white matter distribution

● Failure of normal homeostatic mechanisms that maintain cell
size
● Primarily represents cellular energy (ATP) failure
● Prominent in hypoxic-ischemic injury, osmolar injury, some
toxins & as part of 2ndry injury sequence following head trauma

● ↑ H₂O content of
periventricular white matter
due to obstruction of CSF flow
● Example: normal pressure
hydrocephalus

Herniation syndromes:
Transtentorial herniation (2):
● Medial temporal lobe is squeezed by a unilateral
mass under the tent
● Herniating lobe compresses:
○ Ipsilateral 3rd CN (often first) & posterior
cerebral artery
● As herniation progresses, ipsilateral cerebral
peduncle can be squeezed
● In ~ 5% of pts, the contralateral 3rd CN & cerebral
peduncle can be affected “Kernohan's sign”
Upward transtentorial herniation:
● When an infratentorial mass (ex: tumor, cerebellar
hemorrhage) compresses BS, kinking it & causing
patchy BS ischemia
● Very rare
● Upward movement of the cerebellum

Subfalcine herniation (1):
● Cingulate gyrus is pushed under falx
cerebri by an expanding mass high in a
cerebral hemisphere
● One or both anterior cerebral arteries
become trapped, causing infarction of
paramedian cortex
● As the infarcted area expands, pts are at
risk of transtentorial herniation, central
herniation or both
Tonsillar herniation (3):

Central herniation:
● Both temporal lobes herniate
● Bilateral, more or less symmetric
damage to the midbrain:
○ Pupils fixed in midposition
○ Decerebrate posturing
○ Many of the same symptoms as
transtentorial herniation
● Further compromise of the BS:
○ Loss of all BS reflexes
○ Cessation of respirations
○ Brain death

● Compression the brainstem
● Obstruction of CSF flow
● Acute hydrocephalus (with impaired
consciousness, headache, vomiting)
● Later, abrupt respiratory & cardiac arrest

Treatment of ↑ ICP:
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Best treatment: removal of causative lesion such as tumors, hydrocephalus & hematomas
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Hyperventilation:
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Has been the cornerstone of ICP management
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Hyperventilation → hypocapnia → vasoconstriction → ↓ CBF globally
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Aggressive hyperventilation to pco2 < 25 mmHg should be avoided bcz it may ↓ CBF excessively → cerebral ischemia
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Removal of CSF
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Fluid restriction
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IV mannitol: delayed osmotic effect, with onset in 15-30 minutes & duration from 1 to 6 hours
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Steroids:
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Helpful for patients with a brain tumor or abscess, but they are ineffective for patients with head trauma, cerebral
hemorrhage, ischemic stroke, or hypoxic brain damage after cardiac arrest
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Hypertonic Saline:
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↑ MAP without ↑ ICP thus results in improved CPP
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20 – 50 % ↓ in ICP
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Not first line
Nursing Management of Patient with ↑ ICP:
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Elevate head of bed about 30 degrees
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Minimal suctioning
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Minimize coughing

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Prevent vomiting
Prevent constipation
CLOSE ASSESSMENT