Chapter 20 - Emergency Med Flashcards
What is the most common cause of cardiac arrest in a child?
a lack of oxygen supply to the heart secondary to a pulmonary problem, respiratory arrest, or shock
What is the most common cause of airway obstruction and what are two methods for opening an airway?
- the victim’s tongue
- head-tilt method or jaw-thrust method
What is shock?
a clinical state characterized by inadequate delivery of oxygen and metabolic substrates, which may be present with normal or decreased blood pressure
What are the three degrees of shock?
- compensated: blood pressure and cardiac output are adequate but there is maldistribution of blood flow to essential organs
- decompensated: hypotension and inadequate tissue perfusion
- irreversible: that characterized by cell death which is refractory to medical treatment
What is the most common cause of shock in pediatrics?
hypovolemic, secondary to hemorrhage or dehydration
What volume loss is required for decompensated shock?
20-25%
What are the two subtypes of distributive shock?
anaphylactic and neurogenic
What is neurogenic shock?
a subtype of distributive shock in which there is a loss of distal sympathetic cardiovascular tone with resulting hypotension
What physical exam findings are consistent with shock?
- tachycardia typically occurs before hypotension
- tachypnea occurs to compensate for severe metabolic acidosis
- mental status change
- prolonged capillary refill with cool with mottled extremities
What labs are indicated in someone who is in shock?
- CBC to assess for blood loss and infection
- electrolytes to assess for abnormalities including acidosis
- BUN and creatinine to evaluate renal function and perfusion
- calcium and glucose
- coagulation factors to evaluate for DIC
- toxicology screens
How should shock be managed?
- supplemental oxygen and early endotracheal intubation
- obtaining vascular access and first providing a 20 mL/kg bolus of normal saline
- restore intravascular volume before use of inotropic or vasopressor agents
- inotropic and vasopressor medications
- treatment of metabolic derangements
- antibiotics if infection is present, blood products for hemorrhage, and fresh-frozen plasma for those in DIC
Shock
- defined as inadequate delivery of oxygen and metabolic substrates with or without hypotension
- goes through compensated, decompensated, and irreversible stages
- may be hypovolemic, distributive, or cardiogenic
- often presents with tachycardia, tachypnea, mental status change, and prolonged capillary refill
- evaluate patient with a CBC, electrolyte panel, BUN and creatinine, calcium and glucose, coagulation factor assessment, and toxicology screen
- treat with supplemental oxygen and ET intubation, fluid resuscitation including an initial 20mL/kg bolus, inotropic and vasopressor medications, and correction of metabolic derangements
- may also require antibiotics, blood products for hemorrhage, or fresh-frozen plasma for DIC
What is the leading cause of death in children less than 1 and older than 1?
- less than 1 yo is SIDS
- more than 1 yo is trauma with MVA’s being the leading cause of trauma-related deaths
Why are children affected by trauma differently than adults?
- children have a shorter neck supporting a relatively greater weight
- children have a more pliable rib cage meaning more energy is transmitted to internal organs
- children have growth plates that leave weak epiphyseal-metaphyseal junctions, weaker than ligaments
- children have underdeveloped abdominal musculature and thus less protection from abdominal trauma
What are the ABCDEs of emergency med?
- airway
- breathing
- circulation
- disability (glasgow coma score)
- exposure/environmental (undress to facilitate examination and then warm to prevent hypothermia)
What three things could pulseless electrical activity on an ECG indicate?
- cardiac tamponade
- tension pneumothorax
- profound hypovolemia
What are the most common complications of pediatric head trauma?
- self-limited post-traumatic seizures
- infants are at risk for subgaleal and epidural bleeds
- risk epidural or subdural hematoma
- intracerebral hematoma, usually affecting the frontal or temporal lobe as a contrecoup injury
Epidural Hematoma
- a collection of blood between the dura and the skull
- classically caused by a fracture of the temporal bone, which ruptures the middle meningeal artery
- must be an artery because a vein doesn’t have enough pressure to open a space between the dura and temporal bone
- often presents with a lucid interval before the onset of neurologic signs and progression indicates an abrupt expansion
- expansion may cause transtentorial herniation with CN III palsy
- seen as a “lens-shaped” lesion on CT which doesn’t cross suture lines
- herniation is the feared, lethal complication which is why epidural hematomas require immediate surgical drainage
Subdural Hematoma
- a collection of blood beneath the dura
- due to tearing of the bridging veins that lie between the dura and arachnoid, typically with trauma
- presents with the immediate onset of progressive neurologic signs
- crescent-shaped lesion on CT that crosses suture lines and which is hyperdense if acute and hypodense if chronic
- transtentorial herniation is the feared, lethal complication, but drainage is not as emergent as for an epidural hematoma
How does an epidural hematoma differ from a subdural hematoma?
- subdural are more common in pediatric patients
- epidural appears lens-shaped on CT while subdural appears crescent-shaped
- epidural is associated with trauma and fracture of the temporal bone, which injures the middle meningeal artery while subdural is associated with age-related cerebral atrophy and rupture of veins
- epidural hematomas often have a lucid period after the injury followed by the onset of neurologic symptoms while subdurals have no associated lucid period
- epidurals require immediate drainage whereas subdural are not as emergent
Describe the first and other signs and symptoms of ICP, the complications of rising ICP, and the management.
- headache is usually the first symptom while pupillary changes and altered mental status are the first signs
- other symptoms include vomiting, stiff neck, double vision, transient vision loss, gait disturbance, dulled intellect, and irritability
- other signs include papilledema, cranial nerve palsies, stiff neck, head tilt, retinal hemorrhage, obtundation, hyper resonance of the skull to percussion, unconsciousness, and progressive hemiparesis
- can be complicated by transtenorial or uncalled herniation, producing bradycardia, fixed and dilated ipsalteral pupil which is later bilateral, contralateral hemiparesis, and Cushing’s triad
- should be managed with mild hyperventilation, elevation of the head to encourage venous drainage, and diuretics like mannitol
What is Cushing’s triad?
- a triad of hypertension, bradycardia, and respiratory depression following a rise in intracranial pressure
- increased intracranial pressure constricts arterioles and contributes to cerebral ischemia
- pCO2 rises and pH drops, triggering the central chemoreceptor to initiate reflex sympathetic activity
- this increases perfusion pressure (hypertension), which stretches the carotid wall and activates the carotid baroreceptor
- the effect is bradycardia
What is SCIWORA?
spinal cord injury without radiographic abnormality, which is more common in children than adults
Tonsillar Herniation
- displacement of the cerebellar tonsils into the foramen magnum
- results in compression of the brainstem and cardiopulmonary arrest
- the most common form of brain herniation
Uncal Herniation
- displacement of the temporal lobe uncus under the tentorium cerebelli
- compresses CN III, leading to a “down and out” positioning of the eye with dilated pupil
- also compresses the PCA, leading to infarction of the occipital lobe with contralateral homonymous hemianopsia with macular sparing
- Kernohan notch (indentation of the contralateral cerebral peduncle) results in a “false localization” sign with paralysis on the side ipsilateral the primary lesion/herniation
Transtentorial Herniation
- herniation caused by a supratentorial mass
- results in caudal displacement of the brain stem
- potential for rupture of the paramedian artery leading to a brainstem hemorrhage (aka Duret hemorrhage)
- usually fatal
Tension Pneumothorax
- due to a penetrating chest wall injury
- air enters but cannot exit the pleural space, pushing the trachea to the side opposite the injury
- presents with distended neck veins, diminished breath sounds, unilateral chest expansion, pulseless electrical activity, and hyper-resonance to percussion
Duodenal Hematoma
- most commonly due to injury of the right upper quadrant, classically from a bicycle handle bar
- presents with abdominal pain and vomiting
- bowel obstruction is found on abdominal x-ray
What are the most common injuries induced by a lap belt?
- chance fracture (flexion disruption of the lumbar spine)
- liver and spleen laceration
- bowel perforation
What defines a first-degree, superficial second-degree, deep second-degree, and third-degree burn?
- first involves only the epidermis; presents with red, blanching, painful skin; and heals without a scar
- superficial second involves the entire dermis and the outer portion of the dermis; presents with moist, painful, red skin which blisters but doesn’t scar
- deep second involves the entire epidermis and lower dermis; presents with pale white skin which blisters and scars
- third involve the epidermis, dermis, and subcutaneous tissue; presents with dry, white, and leathery skin that isn’t painful due to destruction of nerve endings
What are two methods for calculating the body surface area of a burn? Which is preferred for pediatrics?
- the rule of 9s: each arm is 9%, each leg is 18%, the anterior trunk is 18%, the posterior trunk is 18%, and the head/neck is 9%
- the rule of 9s overestimates burns in children because children have relatively larger heads and smaller legs
- instead, we say that the palm is approximately equivalent to 1% body surface area
How should burns be managed?
- endotracheal intubation for anyone who has inhaled hot gases
- assessment of oxygenation by pulse ox
- establishment of IV access with initial fluid resuscitation
- skin care depending on the degree of burn: first requires moisturizers and analgesics; second require analgesics, debridement, and removal of ruptured bullae; third require grafting, hydrotherapy, and possibly escharotomy
- second and third degree require antibiotics, typically 1% silver sulfadiazine
- hospitalization for anyone who has a second-degree burn covering more than 10% of body surface area, third-degree covering more than 2% of surface area, suspected inhalation injury, or suspected non-accidental trauma
Why should anyone who has inhaled hot gases be intubated?
because a burn to the upper airway results in progressive edema and airway obstruction
What are the indications for hospitalization in burn patients?
- second-degree covering more than 10% of surface area
- third-degree covering more than 2% of surface area
- suspected inhalation injury
- suspected non-accidental trauma
What is the primary antibiotic used in burn patients?
1% silver sulfadiazine
How does skin care differ for the different degrees of burns?
- first: moisturizers and analgesics
- second: analgesics, debridement, and removal of only ruptured bullae since intact bullae protect against infection
- third: grafting, hydrotherapy, and possibly escharotomy
- second and third degree require antibiotics, typically 1% silver sulfadiazine
