Definition

• Traumatic-caused by external forces.
• Non-traumatic-caused by non-violent forces (e.g., hypoxia, metabolic disorders, vascular disruption, infection, toxicity, neoplasia).
• Primary-direct initial insult when tissue and vessels are stretched, compressed or torn.
• Secondary-alterations of brain vasculature and tissue following primary injury.

Pathophysiology

• Acceleration, deceleration, and rotational forces traumatize brain tissue.
• High oxygen and glucose requirements put the brain at risk for hypoxia.
• Oxygen delivery dependent on CBF and CPP (= MAP – ICP).
• Intracranial bleeding, edema (vasogenic and cytotoxic), vasodilation, and/or vasospasms increase ICP, causing low CBF, ischemia, brain swelling, and herniation; slow, progressive increase in ICP better tolerated than small, acute rise.
• Hypotension, hypoxia-major contributors to secondary injury.

Systems Affected

• Nervous-altered mentation, cranial nerve deficits, seizures, twitching, postural changes.
• Cardiovascular-arrhythmias.
• Endocrine/Metabolic-alterations in ADH release and sodium concentration; central temperature dysregulation; insulin resistance; depletion of cortisol.
• Ophthalmic-changes in eye position, eye movements, pupillary light reflexes, papilledema.
• Respiratory-hyper- and hypocapnea; abnormal breathing patterns; neurogenic pulmonary edema.

Genetics

None

Incidence/Prevalence

• Head and neck injuries found in up to 34% of dogs and cats suffering blunt force trauma.
• Parenchymal and extradural hematomas found in 10% of dogs and cats with signs of mild head injury and in up to 80% with severe head injury.

Geographic Distribution

Widespread

Signalment

Signs

Causes

• Trauma
• Prolonged hypoxia or ischemia
• Prolonged shock
• Severe hypoglycemia
• Prolonged seizures
• Severe hyperthermia or hypothermia
• Alterations in serum osmolality
• Toxins
• Neoplasia
• Hypertension
• Hemorrhage
• Inflammatory, infectious, immune-mediated diseases
• Thiamin deficiency
• Hydrocephalus
• Parasitic migration

Risk Factors

• Free-roaming-trauma, toxins
• Coexisting cardiac, respiratory, hemostatic, hepatic disease
• Diabetes mellitus-insulin therapy

Differential Diagnosis

Systemic causes of altered states of consciousness or central vestibular signs-metabolic disease; toxins; drugs; infection.

CBC/Biochemistry/Urinalysis

• Reflect systemic effects of neurologic signs
• Alterations in serum sodium suggest central ADH abnormalities

Other Laboratory Tests

• Arterial blood gas
• Coagulation profile.
• Infectious disease titers

Imaging

• Skull radiographs-detect fractures.
• CT-detects acute hemorrhage, infarcts, fractures, penetrating foreign bodies, hydrocephalus, herniation.
• MRI-detects cerebral edema, hemorrhage, mass, hydrocephalus, infiltrative diseases, inflammation, herniation, fractures.
• Ultrasound optic disk-if >3 mm diameter, may be associated with brain edema.

Diagnostic Procedures

• ECG-detects arrhythmias
• BP-determine perfusion
• CSF analysis-if cause unknown and no contraindications

Pathologic Findings

• Brain edema or inflammation
• Herniation
• Hemorrhage
• Hydrocephalus
• Infarct
• Laceration, contusion
• Hematomas
• Skull fracture
• Necrosis
• Apoptosis

Appropriate Health Care

• Goals of therapy-maximize oxygenation and ventilation; support BP and CPP; decrease ICP; decrease cerebral metabolic rate.
• Maintain systolic BP >90 mmHg and PCO₂at 35–40 mm Hg; with suspected elevated ICP, hyperventilation to 32–35 mmHg.
• Maintain PaO₂ >60 mmHg, SaO₂ >90%, SpO₂ >94%.
• Avoid cough or sneeze reflex during intubation or nasal oxygen supplementation; lidocaine (dogs: 1–2 mg/kg IV) before.
• Do not compress jugular veins.
• Orotracheal intubation if gag reflex lost.

Nursing Care

• Aggressive therapy for midbrain/brainstem lesion or declining neurologic signs.
• Overzealous fluid resuscitation can contribute to brain edema.
• Small-volume fluid resuscitation techniques to maintain systolic BP >90 mmHg with normal heart rate.
• Combination of isotonic crystalloids (10–20 mL/kg increments) with hydroxyethyl starch (5 mL/kg increments) over 5–8minutes.
• Avoid hypertension.
• Level head with body or elevate head and neck to a 20° angle.
• Keep airway unobstructed; use suction and humidify if intubated; hyperoxygenate and consider IV lidocaine prior to suctioning.
• Lubricate eye.
• Reposition every 2–4hours to avoid hypostatic pulmonary congestion.
• Prevent fecal/urine soiling.
• Maintain normal core body temperature.
• Maintain hydration with a balanced electrolyte crystalloid solution.
• Rehabilitation exercises.

Activity

• Restricted.
• Consult rehabilitation specialist for appropriate exercises to maintain muscle tone.

Diet

Initiate trickle flow feeding to meet elevated metabolic demands.

Client Education

• Neurologic signs may worsen before improving.
• Neurologic recovery may not be evident for several days; possibly >6months for residual neurologic deficits.
• Serious systemic abnormalities contribute to CNS instability.

Surgical Considerations

Depressed skull fracture, penetrating foreign body, uncontrollable ICP elevation (insufficient CSF drainage, hematoma/mass evacuation, herniation).

Drug(s) Of Choice

Contraindications

• Drugs that cause hypertension, hypotension
• Drugs that cause hyperexcitability or increase in metabolic rate

Precautions

• Avoid hypotension, hypoxemia, hypertension, hyperglycemia, hypoglycemia, hypernatremia, hypovolemia, hypervolemia.
• Keep head and neck above plane of body.
• Do not compress jugular veins.
• Furosemide, mannitol and hypertonic saline-can cause hypovolemia and hypotension.
• Maintain PCO₂ >32 mmHg; avoid hyperventilation in the first 24–8h and do not perform therapeutic hyperventilation (32–35 mmHg) for extended periods (>48h).

Patient Monitoring

• Repeated neurologic examinations-deterioration warrants aggressive therapeutic intervention.
• BP; maintain systolic BP >90mmHg.
• Blood gases, pulse oximetry, end-tidal CO₂-to assess need for oxygen supplementation or ventilation.
• Blood glucose-avoid severe persistent hyperglycemia and hypoglycemia.
• ECG-arrhythmias may affect perfusion, oxygenation, and CBF.
• ICP-to detect elevations and monitor response to therapy.

Prevention/Avoidance

Keep pets in a confined area or leashed.

Possible Complications

• Seizures
• Brain herniation
• Intracranial hemorrhage
• Progression from cerebral cortical to midbrain signs
• Malnutrition
• Aspiration pneumonia
• Hypostatic pulmonary congestion
• Corneal desiccation
• Urine scalding
• Airway obstruction from mucus
• Arrhythmias
• Hypotension
• Hypernatremia
• Hypokalemia
• Respiratory failure
• Residual neurologic deficits
• Death

Expected Course and Prognosis

• Young animals, minimal primary brain injury, and secondary injury consisting of cerebral edema-best prognosis.
• No deterioration of neurologic status for 48hours-better prognosis.
• Rapid resuscitation of systolic BP to >90mmHg and avoiding hypoxemia-better neurologic outcome.
• Glasgow Coma Score may offer prognostic insight.

Synonyms

• Head trauma
• Traumatic brain injury

See Also

Stupor and Coma

Abbreviations

• ADH = antidiuretic hormone
• BP = blood pressure
• CBF = cerebral blood flow
• CN = cranial nerve
• CNS = central nervous system
• CPP = cerebral perfusion pressure
• CSF = cerebrospinal fluid
• CT = computed tomography
• ECG = electrocardiogram
• GI = gastrointestinal
• ICP = intracranial pressure
• MAP = mean arterial pressure
• MRI = magnetic resonance imaging

Internet Resources

www.traumaticbraininjury.com

Client Education Handout Available Online