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PICU Board Review

PICU Board Review. January 2014 Stanford University Loren D. Sacks, MD. Ouch!!. The most common thoracic injury seen in children is: a. Pulmonary contusion b. Aortic rupture c. Clavicular fracture d. Myocardial contusion e. Tracheal disruption. You’ve got the shakes….

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PICU Board Review

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  1. PICU Board Review January 2014 Stanford University Loren D. Sacks, MD

  2. Ouch!! The most common thoracic injury seen in children is: a. Pulmonary contusion b. Aortic rupture c. Clavicular fracture d. Myocardial contusion e. Tracheal disruption

  3. You’ve got the shakes… A 6-year-old with renal failure develops seizures after 6 days in the PICD. Her medications include fentanyl, meperidine, digoxin, atracurium, meropenem, and dobutamine. Which of the following is MOST likely implicated in her seizures? a. Toxic metabolite of atracurium b. Digoxin toxicity c. Accumulation of fentanyl metabolites d. Meperidine e. Meropenem

  4. Atracurium • Non-depolarizing neuromuscular blocking agent, first synthesized in 1974 • Cisatracurium = purified R-cis R-cisisomer • Metabolization of Paralytics: • Succinylcholine, Mivacurium  Cholinesterases • Vecuronium  Deacetylated and excreted in bile • Atracurium  Hoffman degradation • Side effects: • Renal failure can lead to increased laudanosine

  5. Digoxin • Purified glycoside similar to Digitoxin (isolated from the foxglove plant) • First described by William Withering in 1785 • Mechanism: • Binds to myocardial Na-K-ATPase pump • Increases intracellular Ca+ • Longer Phase 4 and 0 • Adverse effects: • “PAT with Block” • Seizures ~ 0.1%

  6. Fentanyl • Synthetic opioid first synthesized by Janssen Pharmaceuticals in 1959 • Mechanism of actions: • Bind mu-receptors to inhibit neurotransmitter release in pain fibers • High lipophilicity allows for easy CNS penetration • Clearance: • Primarily cleared by the liver • No active metabolites

  7. Meperidine • Also known as… • Demerol! • First synthetic opioid (1932) • Acts primarily at mu recep • May act at the kappa-receptor to stop shivering • Clearance: • Metabolized to normeperidine • Normeperidine is cleared in the urine • Elevated normeperidine levels are associated with seizures (often fatal)

  8. Meropenem • Carbapenam antibiotic • Similar class: Imipenem, Ertapenam • Mechanism: • Beta-lactam  inhibits bacterial cell-wall synthesis • Resistant to beta-lactamase • Adverse Effects: • Most common = diarrhea, nausea, vomiting • C.diff in 3.6% of patients taking Meropenem

  9. You’ve got the shakes… A 6-year-old with renal failure develops seizures after 6 days in the PICD. Her medications include fentanyl, meperidine, digoxin, atracurium, meropenem, and dobutamine. Which of the following is MOST likely implicated in her seizures? a. Toxic metabolite of atracurium b. Digoxin toxicity c. Accumulation of fentanyl metabolites d. Meperidine e. Meropenem

  10. My heart is racing! A 14-year-old male quadriplegic is postoperative day 7 following spinal surgery to stabilize a C4-5 fracture. He had been doing well for several days. You are called to his bedside emergently for acute tachycardia (HR 175) and hypertension (BP 220/130). He is awake and diaphoretic. You note that he has been oIiguric for over 10 hours. The best initial response in this scenario is to: a. Obtain blood cultures and start broad spectrum antibiotics· b. Obtain an emergent head CT scan c. Institute beta blocker therapy d. Catheterize the bladder e. Administer intravenous fluids until urine output is established

  11. Bladder Innervation

  12. Bladder Function with SCI • Throaco-lumbar Injury (Sympathetic) • Decreased internal sphincter tone • Decreased distensibility of the bladder • Sacral Injury (Parasympathetic) • Increased internal sphincter tone • Increased bladder distension • Rostral Spine Injury (Somatic) • Stretch receptors and spinal reflexes intact, but loss of EUS control • Frequently develop spasms as the bladder contracts against a closed EUS

  13. My heart is racing! A 14-year-old male quadriplegic is postoperative day 7 following spinal surgery to stabilize a C4-5 fracture. He had been doing well for several days. You are called to his bedside emergently for acute tachycardia (HR 175) and hypertension (BP 220/130). He is awake and diaphoretic. You note that he has been oIiguric for over 10 hours. The best initial response in this scenario is to: a. Obtain blood cultures and start broad spectrum antibiotics· b. Obtain an emergent head CT scan c. Institute beta blocker therapy d. Catheterize the bladder e. Administer intravenous fluids until urine output is established

  14. Speaking of hearts… A 4-year-old girl status post complete repair of Tetralogy of Fallot develops tachycardia on the first postoperative night. Her surface ECG (bottom) and simultaneous univentricular atrial wire recording (top) are shown in the figure below. Based on the electrocardiograms the most likely diagnosis of her tachycardia is: a. Atrial fibrillation b. Atrial flutter c. Junctional ectopic tachycardia d. Ectopic atrial tachycardia e. Sinus tachycardia

  15. Atrial Fibrillation • Automatic signals from multiple foci in the atrium, often around the pulmonary veins • Result in atrial “quivering”, but near-normal ventricular conduction

  16. Atrial Flutter • Rapid atrial contractions due to a re-entrant circuit (usually in the RA in infants) • Rare in infancy, this condition usually resolves after conversion • Characteristic saw-tooth patterns in II, III, and aVF

  17. Ectopic Atrial Tachycardia • Impulse arises from a single ectopic focus in the atrium • Accounts for 10-20% of all pediatric SVT

  18. Back to the question at hand…

  19. Junctional Ectopic Tachycardia • Enhanced automaticity in the region of the AV-Node • Features: • AV Dissociation • Ventricular rate > Atrial rate • Usually occurs in the immediate post-op period • Causes: • May be inflammation/injury of conducting fibers • Family history in 50-55% of adult patients • Most common occurrence is after Tet Repair

  20. Take a deep breath… Which of the following findings in a tracheal aspirate is MOST indicative of bacterial pneumonia in a patient who has been ventilated in your PICU for one week? a. 15,000 colony-forming units of Gram-negative rods on a bronchoalveolar lavage b. Gram-positive organisms in chains on a gram stain of tracheal aspirate c. Positive tracheal aspirate for Pseudomonas d. Lobar infiltrate that clears within 24 hours e. Positive blood culture for coagulase-negative staphylococci

  21. Make a match… Match the disease entity with the most likely set of serum electrolytes: a) Diabetes insipidus b) Syndrome of inappropriate antidiuretic hormone secretion c) Diabetes insipidus d) Hyperaldosteronism

  22. Our friend the nephron

  23. Diabetic Ketoacidosis • Anion-Gap Acidosis and Hyperglycemia • Low insulin  inability to utilize glucose • Production of beta-hydroxybutyrate, acetoacetic acid • Potassium • Extracellular shifts due to acidosis, lack of insulin • Wasted in urine (H-K-ATPase symporter) • Sodium • Pseudohyponatremia due to hyperglycemia • “True Na” = (Measured Na) + 1.6x[(Glucose -100)/100]

  24. Diabetes Insipidus • Central DI: • Lack of ADH production from the posterior pituitary • Nephrogenic DI: • Inability of the collecting duct to respond to ADH • V2 Receptor located on X-q28 • Aquaporin-2 Receptor accounts for ~10% of congenital cases • Loss of ADH: • Inability to resorb free H2O  excessive, dilute UOP • Hypovolemia  increased aldosterone

  25. SIADH • Release of excessive ADH • Associated with CNS pathology (tumor, TBI, etc.) • Can be induced by carbamazepine, cyclophosphamide • Results: • Retention of H2O  volume expansion • Depressed aldosterone

  26. Hyperaldosteronism • Aldosterone • Primary mineralocorticoid • Synthesized in zonaglomerulosa • Normal actions: • Distal convoluted tubule  K+ and H+ excretion • Collecting duct  Na+ and Cl- resaborption • H2O follows Na+ • Excessive states: • Metabolic alkalosis and hypokalemia

  27. Make a match… Match the disease entity with the most likely set of serum electrolytes: a) Diabetic ketoacidosis b) Syndrome of inappropriate antidiuretic hormone secretion c) Diabetes insipidus d) Hyperaldosteronism

  28. References • Rogers’ Textbook of Pediatric Intensive Care, 4th Edition • Livingstone, “Pharmacology of Muscle Relaxants and their Antagonists” 2000 • Dean M. “Opioids in renal failure and dailysis” Journal of Pain and Symptom Management, 2004 • Labroo RB, et.al. “Fentanyl metabolism by human hepatic and intestinal cytochrome P450 3A4: implications for interindividual variability in disposition, efficacy, and drug interactions” Drug Metabolism and Disposition 1994 • Arnold R., Verrico P., and Davison SN, “Opioid use in renal failure”, Medical College of Wisconsin, 2009 • Thulhammer F. and Horl WH, “Pharmacokinetics of meropenem in patients with renal failure and patients receiving renal replacement therapy” Clinical Pharmacokinetics 2000 • Yoshimura N, “Bladder afferent pathway and spinal cord injury: possible mechanisms inducing hyperreflexia of the urinary bladder”, Progress in Neurobiology 1999 • “Guidelines for Diagnosis and Reporting of Ventilator Associated Pneumonia” CDC.gov, 2013 • FagonJ, et.al. “Invasive and noninvasive strategies for management of suspected ventilator-associated pneumonia.” Annals of Internal Medicine, 2000 • Chastre J, et.al. “Evaluation of bronchoscopic techniques for the diagnosis of nosocomial pneumonia.” American Journal of Respiratory and Critical Care Medicine, 1995 • Imamura M, et.al. “Prophylactic amiodarone reduces junctional ectopic tachycardia after tetralogy of Fallot repair”. Journal of Thoracic and Cardiovascular Surgery.2011 • UpToDate.com (multiple topics) • Emedicine.com (multiple topics)

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