In this special “PICU Doc On Call Shorts” episode, pediatric ICU physicians Dr. Monica Gray, Dr. Pradip Kamat, and Dr. Rahul Damania break down the concept of Mean Arterial Pressure (MAP). Using a case of a six-year-old in septic shock, they discuss how to calculate MAP, normal pediatric values, and the physiological determinants and clinical significance of MAP. The hosts highlight MAP’s role in guiding management of critically ill children, review autonomic and endothelial regulation, and reinforce learning with a board-style question. This episode emphasizes practical bedside application for pediatric interns and ICU providers.

Show Highlights:

1. Overview of Mean Arterial Pressure (MAP) and its clinical significance in pediatric critical care.
2. Introduction of a clinical case involving a 6-year-old child in septic shock.
3. Explanation of the formula for calculating MAP and its application to the clinical case.
4. Discussion of normal reference values for MAP in children and their clinical implications.
5. Physiological determinants of MAP, including cardiac output and systemic vascular resistance.
6. Role of the autonomic nervous system in regulating MAP through baroreceptor reflexes.
7. Importance of maintaining adequate MAP for organ perfusion, particularly in critically ill patients.
8. Clinical applications of MAP monitoring and management strategies in the PICU.
9. Summary of key takeaways regarding MAP calculation, physiological determinants, and clinical relevance.
10. Mention of related topics, such as invasive versus non-invasive blood pressure monitoring.

References:

1. DeMers D, Wachs D. Physiology, Mean Arterial Pressure. StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing.
2. Pediatric Blood Pressure Metrics and Hypotension Thresholds (details the task force data used to derive the 5th and 50th percentile MAP estimation formulas for children)
3. Berlin DA, Bakker J. Starling curves and central venous pressure. Crit Care. 2015 Feb 16;19(1):55.
4. Magder S. Volume and its relationship to cardiac output and venous return. Crit Care. 2016 Sep 10;20(1):271

In this episode of "PICU Doc on Call," Drs. Pradip Kamat and Rahul Damania dive into a pediatric ICU case involving a 4-year-old girl who presents with severe anemia and bleeding, ultimately diagnosed with von Willebrand disease (VWD). They chat about the causes and different types of VWD, walk through the key clinical features, and break down how to diagnose and manage this condition. Drs. Kamat and Damania highlight the important roles of desmopressin and factor concentrates in treatment. Throughout the episode, they stress the need to recognize VWD in kids who have mucosal bleeding and offer practical tips for intensivists on lab evaluation and treatment strategies for this common inherited bleeding disorder.

Show Nighlights:

1. Clinical case discussion of a 4-year-old girl with severe anemia and bleeding symptoms
2. Diagnosis of von Willebrand disease (VWD) and its significance in pediatric critical care
3. Etiology and pathogenesis of von Willebrand disease
4. Classification of von Willebrand disease into types (Type 1, Type 2 with subtypes, Type 3)
5. Clinical manifestations and symptoms associated with VWD
6. Diagnostic approach for identifying von Willebrand disease, including laboratory tests
7. Management strategies for VWD, including desmopressin and von Willebrand factor concentrates
8. Role of adjunctive therapies such as antifibrinolytics and hormonal treatments
9. Importance of multidisciplinary collaboration in managing complex bleeding disorders
10. Overview of the pathophysiology of von Willebrand factor and its role in hemostasis

References:

1. Fuhrman & Zimmerman - Textbook of Pediatric Critical Care Chapter ***.
2. Reference 1: Leebeek FW, Eikenboom JC. Von Willebrand's Disease. N Engl J Med. 2016 Nov 24;375(21):2067-2080.
3. Reference 2: Ng C, Motto DG, Di Paola J. Diagnostic approach to von Willebrand disease. Blood. 2015 Mar 26;125(13):2029-37.
4. Platton S, Baker P, Bowyer A, et al. Guideline for laboratory diagnosis and monitoring of von Willebrand disease: A joint guideline from the United Kingdom Haemophilia Centre Doctors' Organisation and the British Society for Hematology. Br J Haematol 2024 May;204(5):1714-1731.
5. Mohinani A, Patel S, Tan V, Kartika T, Olson S, DeLoughery TG, Shatzel J. Desmopressin as a hemostatic and blood-sparing agent in bleeding disorders. Eur J Haematol. 2023 May;110(5):470-479. doi: 10.1111/ejh.13930. Epub 2023 Feb 12. PMID: 36656570; PMCID: PMC10073345.

In this episode of "PICU Doc On Call," Drs. Pradip Kamat and Rahul Damania discuss the acute management of a 14-year-old boy with severe rectal bleeding and hypertension, ultimately diagnosed with inflammatory bowel disease (IBD). They review the approach to pediatric lower GI bleeding, diagnostic workup, and imaging, emphasizing early recognition and resuscitation. They outline IBD management, including steroids, biologics such as infliximab, and nutritional support, while highlighting the importance of screening for infections before immunosuppression. The episode provides practical insights for PICU physicians on handling acute GI emergencies in children.

Show Nighlights:

1. Clinical case of a 14-year-old male with hypertension and rectal bleeding.
2. Diagnosis of inflammatory bowel disease (IBD) following significant blood loss.
3. Approach to pediatric rectal bleeding and its implications.
4. Diagnostic workup including laboratory tests and imaging modalities.
5. Management strategies for IBD in acute pediatric care.
6. Importance of early recognition and resuscitation in cases of shock.
7. Physiological principles related to blood loss and shock in children.
8. Differential diagnoses for lower gastrointestinal bleeding in pediatrics.
9. Initial evaluation and stabilization protocols for pediatric patients.
10. Nutritional support and multidisciplinary care in managing IBD.

References:

1. Romano C, Oliva S, Martellossi S, et al. Pediatric gastrointestinal bleeding: Perspectives from the Italian Society of Pediatric Gastroenterology. World J Gastroenterol. 2017;23(8):1326-1337.
2. Pai AK, Fox VL. Gastrointestinal bleeding and management. Pediatr Clin North Am. 2017;64(3):543-561.
3. Padilla BE, Moses W. Lower gastrointestinal bleeding and intussusception. Surg Clin North Am. 2017;97(1):63-80.
4. Kaur M, Dalal RL, Shaffer S, Schwartz DA, Rubin DT. Inpatient management of inflammatory bowel disease-related complications. Clin Gastroenterol Hepatol. 2020;18(11):2417-2428.
5. Ashton JJ, Ennis S, Beattie RM. Early-onset paediatric inflammatory bowel disease. Lancet Child Adolesc Health. 2017;1(2):147-158.
6. Bouhuys M, Lexmond WS, van Rheenen PF. Pediatric inflammatory bowel disease. Pediatrics. 2022;150(6):e2022059341.
7. Rosen MJ, Dhawan A, Saeed SA. Inflammatory bowel disease in children and adolescents. JAMA Pediatr. 2015;169(11):1053-1060.
8. Conrad MA, Rosh JR. Pediatric Inflammatory Bowel Disease. Pediatr Clin North Am. 2017 Jun;64(3):577-591.
9. Turner D, Ruemmele FM, Orlanski-Meyer E, et al. Management of Paediatric Ulcerative Colitis, Part 1: Ambulatory Care-An Evidence-based Guideline From European Crohn's and Colitis Organization and European Society of Paediatric Gastroenterology, Hepatology and Nutrition. J Pediatr Gastroenterol Nutr. 2018 Aug;67(2):257-291, correction can be found in J Pediatr Gastroenterol Nutr 2020 Dec;71(6):794.

In this episode of "PICU Doc on Call," Dr. Pradip Kamat and Dr. Rahul Damania dive into a fascinating case of a 9-month-old infant who comes in with hypoglycemia and seizures. Together, they break down the basics of glucose metabolism, walk through the causes of hypoglycemia, and discuss the best diagnostic strategies and acute management steps. They put a special spotlight on using diazoxide for hyperinsulinemic hypoglycemia, discussing not only how it works but also its potential side effects. The conversation also discusses dietary interventions for metabolic disorders and highlights the importance of rapid diagnosis and personalized treatment.

Show Highlights:

1. Pediatric hypoglycemia and its implications in infants
2. Case study of a 9-month-old infant with hypoglycemia and seizures
3. Physiology of glucose metabolism and its regulation
4. Causes of hypoglycemia, categorized into primary and secondary etiologies
5. Diagnostic approaches for identifying the cause of hypoglycemia
6. Initial management strategies for acute hypoglycemia
7. Long-term treatment options based on underlying causes
8. Importance of timely diagnosis and intervention in the PICU setting
9. Pharmacologic management of hyperinsulinemic hypoglycemia, including the use of diazoxide
10. Multidisciplinary care and follow-up for pediatric patients with hypoglycemia

References:

1. Fuhrman & Zimmerman - Textbook of Pediatric Critical Care Chapter 84 Alder M et al. Pediatric Sepsis. Pages 1293-1309
2. Honarmand K, Sirimaturos M, Hirshberg EL, Bircher NG, Agus MSD, Carpenter DL, Downs CR, Farrington EA, Freire AX, Grow A, Irving SY, Krinsley JS, Lanspa MJ, Long MT, Nagpal D, Preiser JC, Srinivasan V, Umpierrez GE, Jacobi J. Society of Critical Care Medicine Guidelines on Glycemic Control for Critically Ill Children and Adults 2024. Crit Care Med. 2024 Apr 1;52(4):e161-e181. doi: 10.1097/CCM.0000000000006174. Epub 2024 Jan 19. PMID: 38240484.
3. Rosenfeld E, Thornton PS. Hypoglycemia in Neonates, Infants, and Children. 2023 Aug 22. In: Feingold KR, Ahmed SF, Anawalt B, Blackman MR, Boyce A, Chrousos G, Corpas E, de Herder WW, Dhatariya K, Dungan K, Hofland J, Kalra S, Kaltsas G, Kapoor N, Koch C, Kopp P, Korbonits M, Kovacs CS, Kuohung W, Laferrère B, Levy M, McGee EA, McLachlan R, Muzumdar R, Purnell J, Rey R, Sahay R, Shah AS, Singer F, Sperling MA, Stratakis CA, Trence DL, Wilson DP, editors. Endotext [Internet]. South Dartmouth (MA): MDText.com, Inc.; 2000–. PMID: 37665756.
4. Rayas MS, Salehi M. Non-Diabetic Hypoglycemia. 2024 Jan 27. In: Feingold KR, Ahmed SF, Anawalt B, Blackman MR, Boyce A, Chrousos G, Corpas E, de Herder WW, Dhatariya K, Dungan K, Hofland J, Kalra S, Kaltsas G, Kapoor N, Koch C, Kopp P, Korbonits M, Kovacs CS, Kuohung W, Laferrère B, Levy M, McGee EA, McLachlan R, Muzumdar R, Purnell J, Rey R, Sahay R, Shah AS, Singer F, Sperling MA, Stratakis CA, Trence DL, Wilson DP, editors. Endotext [Internet]. South Dartmouth (MA): MDText.com, Inc.; 2000–. PMID: 27099902.
5. Nakrani MN, Wineland RH, Anjum F. Physiology, Glucose Metabolism. [Updated 2023 Jul 17]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2025 Jan-. Available from: https://www.ncbi.nlm.nih.gov/books/NBK560599/
6. Chen X, Feng L, Yao H, Yang L, Qin Y. Efficacy and safety of diazoxide for treating hyperinsulinemic hypoglycemia: A systematic review and meta-analysis. PLoS One. 2021 Feb 11;16(2):e0246463. doi: 10.1371/journal.pone.0246463. PMID: 33571197; PMCID: PMC7877589.
7. Kucharczyk P, Albano G, Deisl C, Ho TM, Bargagli M, Anderegg M, Wuest S, Konrad D, Fuster DG. Thiazides Attenuate Insulin Secretion Through Inhibition of Mitochondrial Carbonic Anhydrase 5b in β -Islet Cells in Mice. J Am Soc Nephrol. 2023 Jul 1;34(7):1179-1190. Doi: 10.1681/ASN.0000000000000122. Epub 2023 Apr 17. PMID: 36927842; PMCID: PMC10356162.

Today, Dr. Monica Gray, Dr. Pradip Kamat, and Rahul Damania discuss a critical case involving a 10-year-old boy who developed post-intubation desaturation. Using the DOPE mnemonic (Displacement, Obstruction, Pneumothorax, Equipment failure), they systematically troubleshoot the emergency, highlighting the importance of teamwork, capnography, and manual ventilation. The team emphasizes structured approaches, simulation training, and essential bedside tools to ensure rapid, effective management of acute deterioration in intubated children, turning a life-threatening crisis into a controlled, solvable situation.

Show Highlights:

• Clinical case discussion of a ten-year-old boy with post-intubation desaturation in the pediatric ICU
• Use of the "DOPE" mnemonic (Displacement, Obstruction, Pneumothorax, Equipment failure) for troubleshooting
• Systematic approaches in emergency situations in pediatric critical care
• Assessment and management of sudden desaturation in intubated patients
• Evaluation of potential causes of desaturation, including tube displacement and obstruction
• Role of equipment failure in acute deterioration and strategies to address it
• Significance of continuous capnography and manual ventilation techniques
• Prevention strategies for unplanned extubation in pediatric ICU settings
• Emphasis on teamwork, communication, and simulation training in crisis management
• Review of literature insights related to hypoxemia and equipment issues in pediatric intubation

References:

• Topjian AA, et al. Part 4: Pediatric Basic and Advanced Life Support—2020 AHA PALS Guidelines. Circulation. 2020.Foundational pediatric resuscitation guidance endorsing early switch to manual ventilation and structured troubleshooting for the deteriorating intubated child.
• Cook TM, et al. Major complications of airway management in the UK: NAP4. British Journal of Anaesthesia. 2011.Seminal audit highlighting ICU/ED airway failures and the critical role of waveform capnography in preventing unrecognized esophageal intubation.
• Volpicelli G, et al. International evidence-based recommendations for point-of-care lung ultrasound. Intensive Care Medicine. 2012. High-impact consensus placing lung ultrasound at the bedside to rapidly diagnose pneumothorax during post-intubation deterioration.
• Prekker ME, et al. Video vs direct laryngoscopy for ED intubation—randomized trial. New England Journal of Medicine. 2023.NEJM RCT showing higher first-pass success with video laryngoscopy—relevant to preventing displacement/misplacement drivers of desaturation.
• Chrimes N, et al. Preventing unrecognised oesophageal intubation: consensus guideline. Anaesthesia. 2022.Modern, practice-changing guidance: sustained waveform capnography is the mainstay to exclude esophageal placement and avert catastrophic hypoxemia.

Welcome to "PICU Doc on Call," the podcast where the world of pediatric critical care comes alive! Today, Dr. Monica Gray, Dr. Pradip Kamat, and Rahul Damania delve into a fascinating case involving a 16-year-old male presenting with headache, photophobia, anemia, and cerebral venous thrombosis. After some detective work, the diagnosis? Paroxysmal nocturnal hemoglobinuria, or PNH.

Join us as we break down the pathogenesis and clinical features of PNH, walk through the diagnostic workup, and discuss management strategies, especially the game-changing role of complement inhibitors like Eculizumab. We’ll also review this patient’s clinical journey, highlighting the key pearls for recognizing and treating PNH in the pediatric intensive care unit.

So, tune in to hear more!

Show Highlights:

• Clinical case presentation of a 16-year-old male with symptoms including headache, photophobia, and anemia
• Diagnosis of paroxysmal nocturnal hemoglobinuria (PNH) and its clinical significance
• Pathogenesis of PNH, including the role of the PIGA gene mutation and GPI-anchored proteins
• Clinical features and complications associated with PNH, such as thrombosis and hemolysis
• Diagnostic workup for PNH, including laboratory tests and flow cytometry
• Management strategies for PNH, focusing on complement inhibitors like Eculizumab
• Importance of supportive care in the PICU for patients with PNH
• Discussion of emerging therapies and advancements in PNH treatment
• Patient outcome and clinical course following treatment for PNH
• Key takeaways regarding the diagnosis and management of PNH in pediatric intensive care

References:

• Fuhrman & Zimmerman - Textbook of Pediatric Critical Care.
• Reference 1: Brodsky RA. Paroxysmal nocturnal hemoglobinuria. Blood. 2014 Oct 30;124(18):2804-11.
• Reference 2 Waheed A, Shammo J, Dingli D. Paroxysmal nocturnal hemoglobinuria: Review of the patient experience and treatment landscape. Blood Rev. 2024 Mar;64:101158.
• Reference 3: Kokoris S, Polyviou A, Evangelidis P, Grouzi E, Valsami S, Tragiannidis K, Gialeraki A, Tsakiris DA, Gavriilaki E. Thrombosis in Paroxysmal Nocturnal Hemoglobinuria (PNH): From Pathogenesis to Treatment. Int. J. Mol. Sci. 2024 Nov 11;25(22):12104.

In today’s episode, Dr. Monica Gray and Dr. Pradip Kamat sit down with neurosurgeon Dr. Neal Laxpati, MD, PhD, to chat about intracranial pressure (ICP) monitoring in pediatric critical care. Using real case studies, they dive into how and when to use external ventricular drains (EVDs) and ICP bolts, walking listeners through setup, potential risks, and everyday challenges. The group discusses device complications, ways to prevent infections, how to interpret waveforms, and shares practical bedside tips. It’s a must-listen for intensivists looking for hands-on advice and key insights to help optimize care for kids with brain injuries or hydrocephalus.

Show Highlights:

• Pediatric critical care unit (PCU) case discussions
• Intracranial pressure (ICP) monitoring in pediatric patients
• Case studies involving a 10-year-old girl with diffuse midline glioma and a 16-year-old male with a ruptured arteriovenous malformation (AVM)
• Cerebrospinal fluid (CSF) physiology and its role in ICP management
• Types of ICP monitoring devices: external ventricular drains (EVDs) and intraparenchymal monitors
• Indications and complications associated with ICP monitoring
• Interpretation of ICP waveforms and their clinical significance
• Management strategies for elevated ICP and CSF drainage
• Risks and challenges of ICP monitoring, including infection and device malfunction
• Importance of interdisciplinary communication and meticulous bedside care in pediatric critical care settings

References:

• Fuhrman & Zimmerman - Textbook of Pediatric Critical Care Chapter 118. Traumatic brain injury. Kochaneck et al. Page 1375 -1400
• Rogers textbook:
• Reference 1: Forsyth RJ, Parslow RC, Tasker RC, Hawley CA, Morris KP; UK Paediatric Traumatic Brain Injury Study Group; Paediatric Intensive Care Society Study Group (PICSSG). Prediction of raised intracranial pressure complicating severe traumatic brain injury in children: implications for trial design. Pediatr Crit Care Med. 2008 Jan;9(1):8-14. doi: 10.1097/01.PCC.0000298759.78616.3A. PMID: 18477907.
• Reference 2: Appavu B, Burrows BT, Foldes S, Adelson PD. Approaches to Multimodality Monitoring in Pediatric Traumatic Brain Injury. Front Neurol. 2019 Nov 26;10:1261. doi: 10.3389/fneur.2019.01261. PMID: 32038449; PMCID: PMC6988791.

Ever wondered how PICU teams make those critical calls about blood pressure and vasoactive meds? On this episode, Dr. Monica Gray and Dr. Pradip Kamat dive into the real-world questions that come up during pediatric intensive care rounds. They break down the pros and cons of arterial line versus non-invasive cuff measurements, talk through blood pressure targets for tough cases like sepsis and brain injury, and share practical tips for weaning kids off vasoactive drugs. With a focus on the latest guidelines and research, Monica and Pradip offer actionable advice to help you fine-tune hemodynamic management for your sickest patients. Tune in!

Show Highlights:

• Relationship between blood pressure and cardiac output in pediatric patients
• Comparison of arterial line (invasive) versus non-invasive cuff measurements for blood pressure monitoring in the PICU
• Blood pressure targets for critical illnesses such as sepsis, traumatic brain injury, and respiratory failure in children
• Strategies for weaning vasoactive medications in critically ill pediatric patients
• Importance of accurate blood pressure measurement and monitoring in the PICU
• Discussion of organ autoregulation and its impact on blood pressure management
• Clinical assessment and individualized care in setting blood pressure goals
• Recommendations for initial vasoactive agents in pediatric septic shock
• Challenges and considerations in vasoactive medication selection and weaning
• Need for further research on pediatric vasoactive medication management strategies

References:

• Fuhrman & Zimmerman - Textbook of Pediatric Critical Care Chapter 110. Alder M et al. Pediatric Sepsis. Pages 1293-1309.
• Rogers Textbook of Pediatric Critical Care Medicine. Chapter 88. Fitzgerald J et al. Bacterial Sepsis.Pages 1469-1485.
• Reference 1 Weiss S. Vasoactive Selection for Pediatric Septic Shock-Where to begin. JAMA Network Open, 2025;8(4):e254726.
• Reference 2 Schlapbach LJ, Watson RS, Sorce LR, Argent AC, Menon K, Hall MW, Akech S, Albers DJ, Alpern ER, Balamuth F, Bembea M, Biban P, Carrol ED, Chiotos K, Chisti MJ, DeWitt PE, Evans I, Flauzino de Oliveira C, Horvat CM, Inwald D, Ishimine P, Jaramillo-Bustamante JC, Levin M, Lodha R, Martin B, Nadel S, Nakagawa S, Peters MJ, Randolph AG, Ranjit S, Rebull MN, Russell S, Scott HF, de Souza DC, Tissieres P, Weiss SL, Wiens MO, Wynn JL, Kissoon N, Zimmerman JJ, Sanchez-Pinto LN, Bennett TD; Society of Critical Care Medicine Pediatric Sepsis Definition Task Force. International Consensus Criteria for Pediatric Sepsis and Septic Shock. JAMA. 2024 Feb 27;331(8):665-674.

Welcome to PICU Doc on Call, the podcast where we break down real-life cases from the pediatric intensive care unit and share practical insights for clinicians everywhere! I’m Dr. Monica Gray, and I’m joined by my co-host, Dr. Pradip Kamat.

Today, we’re diving into a fascinating case: a 13-year-old boy who suddenly developed muscle weakness and was found to have severe hypokalemia. After some detective work, he was diagnosed with familial hypokalemic periodic paralysis, a rare but important condition to recognize in the PICU.

We’ll discuss the genetic underpinnings, classic clinical features, and common triggers associated with this disorder. Additionally, we’ll guide you through the differential diagnosis, key management strategies, such as potassium supplementation, and explain why genetic testing is so crucial. We’ll also cover essential considerations for anesthesia and cardiac monitoring in these patients.

Whether you’re a pediatric intensivist or just interested in acute neuromuscular care, stick around for some practical pearls you can use on your next shift!

Show Highlights:

• Clinical case discussion of a 13-year-old male patient with muscle weakness and hypokalemia
• Diagnosis and management of familial hypokalemic periodic paralysis
• Genetic basis and mutations associated with hypokalemic periodic paralysis (CACNA1S and SCN4A)
• Physiological mechanisms underlying hypokalemic periodic paralysis
• Common clinical presentations and triggers for episodes of muscle weakness
• Differential diagnoses for muscle weakness and hypokalemia in pediatric patients
• Laboratory investigations to confirm hypokalemic periodic paralysis
• Treatment options for hypokalemic periodic paralysis, including potassium supplementation and prophylactic medications
• Importance of avoiding triggers and coordinating care with anesthesia

References:

• Fuhrman & Zimmerman - Textbook of Pediatric Critical Care Chapter 68: Weimer M et al. Acute neuromuscular disease and disorders page 840
• Rogers Textbook of Pediatric Intensive Care Medicine: Management of Sodium and Potassium Disorders. Pages 1876- 1883
• Reference 1: Weber F, Lehmann-Horn F. Hypokalemic Periodic Paralysis. 2002 Apr 30 [Updated 2018 Jul 26]. In: Adam MP, Feldman J, Mirzaa GM, et al., editors. GeneReviews® [Internet]. Seattle (WA): University of Washington, Seattle; 1993-2025. Available from: https://www.ncbi.nlm.nih.gov/books/NBK1338/
• Reference 2: Channelopathies. Clin Exp Pediatr. 2014;57(1):1-18.   Published online January 31, 2014**DOI: https://doi.org/10.3345/kjp.2014.57.1.1**
• Reference 3: Statland JM, Fontaine B, Hanna MG, Johnson NE, Kissel JT, Sansone VA, Shieh PB, Tawil RN, Trivedi J, Cannon SC, Griggs RC. Review of the Diagnosis and Treatment of Periodic Paralysis. Muscle Nerve. 2018 Apr;57(4):522-530.

Learn how to sharpen your pediatric intubation skills and make evidence-based decisions at the bedside. Today, Dr. Pradip Kamat, Dr. Monica Gray, and Dr. Rahul Damania expertly dissect the nuances of selecting optimal induction agents for critically ill children in the PICU. Through engaging, real-world case scenarios, our hosts guide you through drug choices in complex situations such as cardiogenic shock, septic shock, and elevated intracranial pressure—always prioritizing hemodynamic stability and patient safety. Gain valuable insights into the advantages, limitations, and clinical pearls of agents like propofol, fentanyl, ketamine, and midazolam, along with practical strategies for rapid sequence intubation, neuromuscular blockade, and individualized patient care. Don’t miss this high-yield discussion, packed with actionable knowledge!

Show Highlights:

• Induction agents for endotracheal intubation in critically ill children
• Clinical scenarios highlighting optimal choices of induction agents and neuromuscular blockers
• Importance of maintaining hemodynamic stability during intubation
• Pharmacology and clinical considerations of various induction agents (e.g., propofol, ketamine, fentanyl, etomidate)
• Use of neuromuscular blocking agents (NMBAs) in pediatric intubation
• Differences between depolarizing and non-depolarizing neuromuscular blockers
• Risks associated with specific induction agents in patients with cardiac dysfunction or septic shock
• Modified rapid sequence intubation (RSI) techniques for unstable patients
• Key takeaways for managing critically ill pediatric patients requiring intubation
• Practical tips for optimizing intubation conditions and minimizing complications

References:

1. Fuhrman & Zimmerman - Textbook of Pediatric Critical Care 6th Edition. Chapters 127 - 135, Pages 1510 - 1610
2. Hendrix JM, Regunath H. Intubation Endotracheal Tube Medications. [Updated 2025 Jan 19]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2025 Jan-. Available from: https://www.ncbi.nlm.nih.gov/books/NBK459276/
3. Agrawal, Dewesh. Rapid sequence intubation (RSI) in children for emergency medicine: Medications for sedation and paralysis. UpToDate. Last updated Dec 4, 2024.
4. Vanlinthout LE, Geniets B, Driessen JJ, Saldien V, Lapré R, Berghmans J, Uwimpuhwe G, Hens N. Neuromuscular-blocking agents for tracheal intubation in pediatric patients (0-12 years): A systematic review and meta-analysis. Paediatr Anaesth. 2020 Apr;30(4):401-414. doi: 10.1111/pan.13806. Epub 2020 Mar 9. PMID: 31887248.
5. Tarquinio KM, Howell JD, Montgomery V, Turner DA, Hsing DD, Parker MM, Brown CA 3rd, Walls RM, Nadkarni VM, Nishisaki A; National Emergency Airway Registry for Children; Pediatric Acute Lung Injury and Sepsis Investigators Network. Current medication practice and tracheal intubation safety outcomes from a prospective multicenter observational cohort study. Pediatr Crit Care Med. 2015 Mar;16(3):210-8. doi: 10.1097/PCC.0000000000000319. PMID: 25581629.
6. Conway JA, Kharayat P, Sanders RC Jr, Nett S, Weiss SL, Edwards LR, Breuer R, Kirby A, Krawiec C, Page-Goertz C, Polikoff L, Turner DA, Shults J, Giuliano JS Jr, Orioles A, Balkandier S, Emeriaud G, Rehder KJ, Kian Boon JL, Shenoi A, Vanderford P, Nuthall G, Lee A, Zeqo J, Parsons SJ, Furlong-Dillard J, Meyer K, Harwayne-Gidansky I, Jung P, Adu-Darko M, Bysani GK, McCarthy MA, Shlomovich M, Toedt-Pingel I, Branca A, Esperanza MC, Al-Subu AM, Pinto M, Tallent S, Shetty R, Thyagarajan S, Ikeyama T, Tarquinio KM, Skippen P, Kasagi M, Howell JD, Nadkarni VM, Nishisaki A; National Emergency Airway Registry for Children (NEAR4KIDS) and for the Pediatric Acute Lung Injury and Sepsis Investigators (PALISI). Ketamine Use for Tracheal Intubation in Critically Ill Children Is Associated With a Lower Occurrence of Adverse Hemodynamic Events. Crit Care Med. 2020 Jun;48(6):e489-e497. doi: 10.1097/CCM.0000000000004314. PMID: 32317603.
7. Zanza C, Piccolella F, Racca F, Romenskaya T, Longhitano Y, Franceschi F, Savioli G, Bertozzi G, De Simone S, Cipolloni L, La Russa R. Ketamine in Acute Brain Injury: Current Opinion Following Cerebral Circulation and Electrical Activity. Healthcare (Basel). 2022 Mar 17;10(3):566. doi: 10.3390/healthcare10030566. PMID: 35327044; PMCID: PMC8949520.
8. Zeiler FA, Teitelbaum J, West M, Gillman LM. The ketamine effect on ICP in traumatic brain injury. Neurocrit Care. 2014 Aug;21(1):163-73. doi: 10.1007/s12028-013-9950-y. PMID: 24515638.

Ready for a deep dive into a real-life pediatric ICU situation? Today,  Dr. Pradip Kamat, Dr. Monica Gray, and Dr. Rahul Damania will walk you through the case of a seven-year-old girl with Hemoglobin SC (HbSC) disease, who presents with abdominal swelling, pneumonia, low oxygen, and pain.

In this episode, our team unpacks the spleen’s anatomy and its crucial role in immunity, then zooms in on how sickle cell disease can throw a wrench in splenic function. You’ll hear how they approach the diagnosis and management of acute splenic sequestration crisis, sharing clinical pearls along the way. Plus, they’ll break down why quick recognition is so important and discuss strategies for both immediate and long-term care in pediatric sickle cell patients. Don’t miss these practical insights from the frontlines of pediatric critical care!

Show Highlights:

• Case study of a seven-year-old girl with hemoglobin SC disease
• Presentation of symptoms: abdominal distension, pneumonia, hypoxia, and body pain
• Discussion of acute splenic sequestration crisis as a complication of sickle cell disease
• Anatomy and physiology of the spleen
• The role of the spleen in sickle cell disease and how sickled cells affect splenic function
• Acute splenic sequestration crisis, including clinical features and laboratory evaluations
• Management strategies for acute splenic sequestration crisis in the ICU
• Importance of blood transfusions and supportive care in treatment
• Prophylactic measures to prevent recurrence of splenic sequestration
• Educational emphasis on recognizing clinical signs and the need for timely intervention

References:

• Fuhrman & Zimmerman - Textbook of Pediatric Critical Care Chapter 88. Hemoglobinopathies. Baender, MA, Marsh Anne. Pages: 1457-1470
• Rogers' textbook of pediatric intensive care: Hematologic Emergencies. McCory MC, Bhar S, and Blaine E. Pages 2003-2005
• Brousse V, Buffet P, Rees D. The spleen and sickle cell disease: the sick(led) spleen. Br J Haematol. 2014 Jul;166(2):165-76. doi: 10.1111/bjh 12950. Epub 2014 May 26. PMID: 24862308.
• Waleed S, Aldabsa M, Gouher S. Splenic Sequestration Induced by Parvovirus B19: A Case Report. Cureus. 2024 May 23;16(5):e60937. doi: 10.7759/cureus. 60937. PMID: 38915956; PMCID: PMC11195323.
• Solanki DL, Kletter GG, Castro O. Acute splenic sequestration crises in adults with sickle cell disease. Am J Med. 1986 May;80(5):985-90. doi: 10.1016/0002-9343(86)90649-2. PMID: 3706382.
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