Core EM - Emergency Medicine Podcast
Episode 196: The Critically Ill Infant
We discuss an approach to the critically ill infant.
Hosts:
Ellen Duncan, MD, PhD
Brian Gilberti, MD
https://media.blubrry.com/coreem/content.blubrry.com/coreem/The_Critically_Ill_Infant.mp3
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Tags: Pediatrics
Show Notes
The Critically Ill Infant: THE MISFITS
Trauma
- ‘T’ in the mnemonic stands for trauma, which includes both accidental and intentional causes.
- Considerations for Non-accidental Trauma:
- Stresses the importance of considering non-accidental trauma, especially given that it may not always present with obvious external signs.
- Stresses the importance of considering non-accidental trauma, especially given that it may not always present with obvious external signs.
- Anatomical Vulnerabilities:
- Highlights specific anatomical considerations for infants who suffer from trauma:
- Infants have proportionally larger heads, increasing their susceptibility to high cervical spine (c-spine) injuries.
- Their liver and spleen are less protected, making abdominal injuries potentially more severe.
- Infants have proportionally larger heads, increasing their susceptibility to high cervical spine (c-spine) injuries.
- Highlights specific anatomical considerations for infants who suffer from trauma:
- 5 T’s of Cyanotic Congenital Heart Disease: Introduces a mnemonic to help remember key right-sided ductal-dependent lesions:
- Truncus Arteriosus: Single vessel serving as both pulmonary and systemic outflow tract.
- Transposition of the Great Arteries: The pulmonary artery and aorta are switched, leading to improper circulation.
- Tricuspid Atresia: Absence of the tricuspid valve, leading to inadequate development of the right ventricle and pulmonary circulation issues.
- Tetralogy of Fallot: Comprises four defects—ventricular septal defect, pulmonary stenosis, right ventricular hypertrophy, and an overriding aorta.
- Total Anomalous Pulmonary Venous Connection (TAPVC): Pulmonary veins do not connect to the left atrium but rather to the right heart or veins, causing oxygen-rich blood to mix with oxygen-poor blood.
- Truncus Arteriosus: Single vessel serving as both pulmonary and systemic outflow tract.
- Other Significant Conditions:
- Ebstein’s Anomaly: Malformation of the tricuspid valve affecting right-sided heart function.
- Pulmonary Atresia/Stenosis: Incomplete formation or narrowing of the pulmonary valve obstructs blood flow to the lungs.
- Ebstein’s Anomaly: Malformation of the tricuspid valve affecting right-sided heart function.
- Left-sided Ductal-Dependent Lesions:
- Conditions such as aortic arch abnormalities (coarctation or interrupted arch), critical aortic stenosis, and hypoplastic left heart syndrome are highlighted. These generally present with less obvious cyanosis and more pallor.
- Conditions such as aortic arch abnormalities (coarctation or interrupted arch), critical aortic stenosis, and hypoplastic left heart syndrome are highlighted. These generally present with less obvious cyanosis and more pallor.
- Diagnostic and Management Considerations:
- Routine prenatal ultrasounds detect most cases, but conditions like coarctation of the aorta and TAPVC might not be apparent until after birth when the ductus arteriosus closes.
- Emphasizes the importance of a thorough physical exam: checking for murmurs, assessing hepatosplenomegaly, feeling for femoral pulses, measuring pre- and post-ductal saturations, and taking blood pressures in all four limbs.
- Routine prenatal ultrasounds detect most cases, but conditions like coarctation of the aorta and TAPVC might not be apparent until after birth when the ductus arteriosus closes.
- Treatment Recommendations:
- Early initiation of alprostadil (a prostaglandin) for patients with suspected ductal-dependent lesions to maintain ductal patency.
- Preparedness for potential complications from alprostadil treatment, such as apnea and hypotension, which may necessitate intubation and hemodynamic support.
- Early initiation of alprostadil (a prostaglandin) for patients with suspected ductal-dependent lesions to maintain ductal patency.
- Focuses on acute salt-wasting crisis in undiagnosed Congenital Adrenal Hyperplasia (CAH).
- Electrolyte imbalances: ↓Na, ↑K, ↓HCO3, ↓Glu.
- Treatment: hydrocortisone (25mg for babies, 50mg for kids, 100mg for adults).
- Electrolyte abnormalities such as hypoglycemia (values: <60 in infants, <40 in neonates).
- Broad differential.
- Rule of 50s for correction: D% x #ml/kg fluid = 50.
- Major classes include organic acidurias (profound anion gap metabolic acidosis) and urea cycle defects (hyperammonemia)
- Recommendation: Draw gas and ammonia level.
- Emphasized as a critical condition in the differential diagnosis for ill infants, though placed later in the mnemonic for easier recall.
- Presentation and Diagnosis:
- Sepsis in infants often presents nonspecifically, making early detection challenging.
- Immediate drawing of blood cultures upon suspicion of sepsis.
- Sepsis in infants often presents nonspecifically, making early detection challenging.
- Initial Treatment:
- Prompt initiation of antimicrobials and fluids.
- Use of vancomycin for gram-positive and MRSA coverage, a third-generation cephalosporin or pip-tazo for broad bacterial coverage, and acyclovir for HSV. (tailor based on age and institutional guidelines)
- Prompt initiation of antimicrobials and fluids.
- Supportive Care:
- Highlights the necessity of fluid resuscitation to stabilize the patient.
- Highlights the necessity of fluid resuscitation to stabilize the patient.
- Formula-Related Electrolyte Imbalances:
- Incorrect mixing of infant formula can cause hypo- or hypernatremia.
- Incorrect mixing of infant formula can cause hypo- or hypernatremia.
- Consequences of Electrolyte Imbalances:
- Both conditions can lead to severe outcomes including altered mental status, seizures, coma, and potentially death.
- Both conditions can lead to severe outcomes including altered mental status, seizures, coma, and potentially death.
- Management Strategies:
- Treatment varies based on the sodium levels:
- Symptomatic hyponatremia is treated with hypertonic saline.
- Hypernatremia requires fluid resuscitation.
- Symptomatic hyponatremia is treated with hypertonic saline.
- Treatment varies based on the sodium levels:
- Specific Conditions:
- Malrotation with Midgut Volvulus: Twisting of the intestines that can obstruct blood flow.
- Necrotizing Enterocolitis (NEC): Can occur in both full-term and preterm infants, involves inflammation and bacterial infection that can destroy bowel tissue.
- Hirschsprung-associated Enterocolitis: Complication of Hirschsprung’s disease involving blockage and infection.
- Intussusception: Older infants might only show altered mental status instead of the typical intermittent pain and lethargy.
- Malrotation with Midgut Volvulus: Twisting of the intestines that can obstruct blood flow.
- Symptoms:
- Common symptoms include bilious emesis (green vomit) or hematemesis (vomiting blood).
- Common symptoms include bilious emesis (green vomit) or hematemesis (vomiting blood).
- Emergency Response:
- Urges early mobilization of pediatric surgery and radiology teams upon suspicion of these conditions.
- Urges early mobilization of pediatric surgery and radiology teams upon suspicion of these conditions.
- Includes intentional or unintentional ingestion.
- One pill killers include: calcium channel blockers (CCB), tricyclic antidepressants (TCA), opiates, sulfonylureas, Class 1 antiarrhythmics, antimalarials, camphor, oil of wintergreen.
- The second ‘S’ in the mnemonic refers to seizures, which can be triggered by various conditions such as hypoglycemia, sepsis, inborn errors of metabolism, and trauma.
- First-Line Treatment:
- Actively seizing patients should initially be treated with benzodiazepines.
- Actively seizing patients should initially be treated with benzodiazepines.
- Second-Line Medications:
- Includes fosphenytoin, phenobarbital, levetiracetam (Keppra), and valproic acid.
- Includes fosphenytoin, phenobarbital, levetiracetam (Keppra), and valproic acid.
- Management of Reversible Causes:
- Urges prompt treatment of any identifiable causes like hypoglycemia or electrolyte imbalances.
- Urges prompt treatment of any identifiable causes like hypoglycemia or electrolyte imbalances.
- Special Consideration:
- Notes the possibility of pyridoxine-dependent epilepsy in neonates, recommending pyridoxine (vitamin B6) for intractable seizures unresponsive to multiple antiepileptic drugs (AEDs).
- Notes the possibility of pyridoxine-dependent epilepsy in neonates, recommending pyridoxine (vitamin B6) for intractable seizures unresponsive to multiple antiepileptic drugs (AEDs).
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