• Approach Toxic Alcohol Ingestion in the PICU
    Oct 15 2024

    Introduction

    • Hosts: Dr. Pradip Kamat (Children’s Healthcare of Atlanta/Emory University) and Dr. Rahul Damania (Cleveland Clinic Children’s Hospital)
    • Mission: A podcast dedicated to current and aspiring pediatric intensivists, exploring intriguing PICU cases and acute care pediatric management
    • Focus of the Episode: Managing toxic alcohol ingestion in the PICU with emphasis on ethanol, methanol, ethylene glycol, propylene glycol, and isopropyl alcohol

    Case Presentation

    • Patient Details: A 7-month-old male presented with accidental ethanol ingestion after his formula was mixed with vodka
    • Key Symptoms: Lethargy, uncoordinated movements, decreased activity, and ethanol odor
    • Initial Labs & Findings:
    • EtOH level: 420 mg/dL.
    • Glucose: 50 mg/dL.
    • Normal CXR and EKG.
    • PICU Presentation: Tachycardic, normotensive, lethargic, with signs of CNS depression
    • Initial Management: Dextrose infusion, glucose monitoring, neurological observation, and ruling out complications

    Key Learning Points from the Case

    • Toxic alcohol ingestion in pediatrics requires rapid stabilization and targeted interventions
    • Hypoglycemia and CNS depression are common features of ethanol toxicity in infants
    • Management prioritizes glucose correction, airway support, and close neurological monitoring

    Deep Dive: Toxic Alcohols in the PICU

    1. Ethanol

    • Typical Presentation in Infants/Toddlers: Hypotonia, ataxia, coma, hypoglycemia, hypotension, and hypothermia
    • Diagnostic Workup:
    • Focus on CNS and metabolic effects
    • Labs: Glucose, electrolytes, bicarbonate, anion gap, ketones, toxicology screen
    • Imaging (head CT) if indicated
    • Management: Stabilization, IV dextrose for hypoglycemia, NPO status until alert, and consultation with poison control and social work

    2. Methanol

    • Sources: Windshield fluids, cleaning agents, moonshine
    • Clinical Stages:

    1. Early:...
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    30 mins
  • Multisystem Organ Dysfunction Syndrome (MODS) in the PICU
    Nov 24 2024

    Did you know that Multi-Organ Dysfunction Syndrome (MODS) can result from both infectious and non-infectious causes? In our latest episode, we delve deep into the pathophysiology of MODS, exploring how different organs interact and fail in sequence. We discuss key concepts like organ functional reserve and the kinetics of organ injury, which aren’t as straightforward as they seem. Tune in to learn about the non-linear progression of organ damage and how it impacts management strategies in pediatric critical care.

    We break down the case into key elements:

    1. Patient Background: A 15-year-old girl with chronic TPN dependence and a PICC line presented with septic shock and respiratory failure.
    2. Initial Presentation: Blood cultures confirmed Gram-negative rod bacteremia. She developed multi-system complications, including acute kidney injury (AKI), thrombocytopenia, and cardiac dysfunction.
    3. Management: Broad-spectrum antibiotics, mechanical ventilation, vasoactive agents, and supportive care for MODS.

    Key Case Highlights:
    • Clinical case of a 15-year-old girl with sepsis from a gram-negative rod
    • Dependence on total parenteral nutrition (TPN) and prolonged PICC line use
    • Discussion of septic shock, acute respiratory failure, and acute kidney injury
    • Overview of multiple organ dysfunction syndrome (MODS) and its definitions
    • Pathophysiology of MODS, including organ functional reserve and kinetics of organ injury
    • Molecular mechanisms involved in MODS, such as mitochondrial dysfunction and immune responses
    • Specific phenotypes of sepsis-induced MODS, including TAMOF and IPMOF
    • Management strategies for MODS, emphasizing multidisciplinary approaches
    • Role and complications of therapeutic plasma exchange (TPE) in treating MODS
    • Importance of recognizing signs of MODS and timely intervention in pediatric patients

    Segment 1: MODS Definitions and Phenotypes

    • Key Definition: MODS is the progressive failure of two or more organ systems due to systemic insults (infectious or non-infectious).
    • Phenotypes:
    • TAMOF (Thrombocytopenia-Associated Multi-Organ Failure): Characterized by thrombocytopenia, hemolysis, and decreased ADAMTS13 activity.
    • Immunoparalysis: Persistent immunosuppression and risk of secondary infections.
    • Sequential Liver Failure: Often associated with viral triggers.

    Segment 2: Pathophysiology of MODS

    Molecular Insights:

    • Mitochondrial dysfunction and damage-associated molecular patterns (DAMPs)
    • Innate and adaptive immune dysregulation
    • Microcirculatory dysfunction and ischemia-reperfusion injury
    • Organ Interactions: MODS evolves through complex multi-organ interdependencies

    Segment 3: Diagnosis and Evidence-Based Management

    • Key Diagnostic Pearls:
    • MODS is not solely infection-driven; it requires a shared mechanism and predictable outcomes.
    • Use biomarkers like ADAMTS13 and TNF-α response for phenotypic classification.
    • Management Highlights:
    • Supportive Care: Multisystem approach including lung-protective ventilation, renal replacement therapy, and hemodynamic support.
    • Therapeutic Plasma Exchange (TPE): Especially effective in TAMOF by restoring ADAMTS13 and removing inflammatory mediators.

    Segment 4: Practical Tips for Intensivists

    • Early recognition of MODS phenotypes for targeted therapy
    • Importance of multidisciplinary teamwork in critical care settings
    • Monitoring for complications like TMA and immunoparalysis during prolonged ICU stays

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    • Twitter: @PICUDocOnCall
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    32 mins
  • Acute Hydrocephalus in the PICU
    Nov 17 2024

    In this episode, we discuss the case of a 15-year-old girl who presents with progressive headache, nausea, vomiting, and difficulty ambulating. Her condition rapidly evolves into altered mental status and severe hydrocephalus, leading to a compelling discussion about the evaluation, diagnosis, and management of hydrocephalus in pediatric patients.

    We break down the case into key elements:

    • A comprehensive look at acute hydrocephalus, including its pathophysiology and causes
    • Epidemiological insights, clinical presentation, and diagnostic approaches
    • Management strategies, including temporary and permanent CSF diversion techniques
    • A review of complications related to shunts and endoscopic third ventriculostomy

    Key Case Highlights:
    • Patient Presentation:
    • A 15-year-old girl with a 3-day history of worsening headaches, nausea, vomiting, and difficulty walking
    • Altered mental status and bradycardia upon PICU admission
    • CT scan revealed severe hydrocephalus without a clear mass lesion
    • Management Steps in the PICU:
    • Hypertonic saline bolus improved her mental status and pupillary reactions
    • Neurosurgery consultation recommended MRI and close neuro checks
    • Initial management included dexamethasone, keeping the patient NPO, and hourly neuro assessments
    • Differential Diagnosis:
    • Obstructive (non-communicating) vs. non-obstructive (communicating) hydrocephalus
    • Consideration of alternative diagnoses like intracranial hemorrhage and idiopathic intracranial hypertension

    Episode Learning Points:
    • Hydrocephalus Overview:
    • Abnormal CSF buildup in the ventricles leading to increased intracranial pressure (ICP)
    • Key distinctions between obstructive and non-obstructive types

    Epidemiology and Risk Factors:

    • Congenital causes include genetic syndromes, neural tube defects, and Chiari malformations
    • Acquired causes: post-hemorrhagic hydrocephalus (e.g., from IVH in preemies), infections like TB meningitis, and brain tumors

    Clinical Presentation:

    • Infants: Bulging fontanelles, sunsetting eyes, irritability
    • Older children: Headaches, vomiting, papilledema, and gait disturbances

    Management Framework:

    • Temporary CSF diversion via external ventricular drains (EVD) or lumbar catheters
    • Permanent interventions include VP shunts and endoscopic third ventriculostomy (ETV)

    Complications of Shunts and ETV:

    • Shunt infections, malfunctions, over-drainage, and migration
    • ETV-specific risks, including delayed failure years post-procedure

    Clinical Pearl:

    • Communicating hydrocephalus involves symmetric ventricular enlargement and is often linked to inflammatory or post-treatment changes affecting CSF reabsorption.

    Hosts’ Takeaway Points:

    • Dr. Pradip Kamat emphasizes the importance of timely recognition and intervention in hydrocephalus to prevent complications like brain herniation.
    • Dr. Rahul Damania highlights the need for meticulous neurological checks in PICU patients and an individualized approach to treatment.

    Resources Mentioned:
    • Hydrocephalus Clinical Research Network guidelines.
    • Recent studies on ETV outcomes in pediatric populations.

    Call to Action:

    If you enjoyed this discussion, please subscribe to PICU Doc On Call and leave a review. Have a topic you’d like us to cover? Reach out to us via email or on social media!

    Follow Us:

    • Twitter: @PICUDocOnCall
    • Email:
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    36 mins
  • It’s Getting Hot in Here | Heat Stroke in the PICU
    Oct 13 2024
    Introduction:

    Today, Dr. Rahul Damania, Dr. Pradip Kamat, and their guest, Dr. Jordan Dent, discuss a critical case involving a 15-year-old male who collapsed during football practice due to exertional heat stroke. The discussion emphasizes the clinical presentation, risk factors, pathophysiology, and evidence-based management of heat stroke and other heat-related illnesses in pediatric patients. The episode also delves into the role of rapid cooling interventions and long-term care to minimize mortality and morbidity.

    Case Summary: A 15-year-old male with ADHD collapsed during football practice on a hot, humid day. He presented with:

    • Normotension (BP: 101/67 mmHg)
    • Tachycardia (HR: 157 bpm)
    • Tachypnea (RR: 40 breaths/min)
    • Febrile (Rectal temp: 41.8°C/107.2°F)
    • Dry, hot skin, GCS of 9
    • Lab abnormalities: hyponatremia, hypokalemia, hypoglycemia, elevated creatinine, liver enzymes, lactate, CK, and troponin

    After suffering cardiac arrest and undergoing resuscitation, the patient developed multiorgan dysfunction, including seizures, encephalopathy, and cerebral edema. Despite severe initial complications, the patient demonstrated neurological improvement with left-side hemiparesis before discharge.

    Key Discussion Points:

    1. Etiology and Pathophysiology of Heat Stroke:

    • Heat stroke occurs when the body’s thermoregulatory mechanisms fail, leading to dangerous elevations in core body temperature. Exertional heat stroke is common during strenuous physical activity in hot, humid environments.
    • Key physiological breakdowns include inadequate sweating, vasodilation dysfunction, and subsequent cellular damage due to hyperthermia.

    1. Risk Factors for Exertional Heat Stroke:

    • Environmental factors: High temperature, humidity, lack of hydration, and breaks.
    • Athlete-related factors: Hypohidrosis, dehydration, medical conditions, and medications (e.g., Adderall).
    • Heat illness is the third leading cause of death in high school athletics, with American football players particularly at risk.

    1. Spectrum of Heat-Related Illness:

    • Heat Cramps: Involuntary muscle contractions due to dehydration and electrolyte imbalance.
    • Heat Syncope: Transient loss of consciousness due to heat exposure.
    • Heat Exhaustion: Milder heat illness with core temperature < 104°F, potentially progressing to heat stroke if untreated.
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    30 mins
  • Hemostatis and Coagulation in the PICU
    Aug 4 2024
    Introduction

    Welcome to PICU Doc On Call, a podcast dedicated to current and aspiring pediatric intensivists. I'm Dr. Pradip Kamat from Children’s Healthcare of Atlanta/Emory University School of Medicine, and I’m Dr. Rahul Damania from Cleveland Clinic Children’s Hospital. We are two Pediatric ICU physicians passionate about medical education in the PICU. This podcast focuses on interesting PICU cases and their management in the acute care pediatric setting.

    Episode Overview

    In today’s episode, we are excited to welcome Dr. Karen Zimowski, Assistant Professor of Pediatrics at Emory University School of Medicine and a practicing pediatric hematologist at Children’s Healthcare of Atlanta at the Aflac Blood & Cancer Center. Dr. Zimowski specializes in pediatric bleeding and clotting disorders.

    Case Presentation

    A 16-year-old female with a complex medical history, including autoimmune thyroiditis and prior cerebral infarcts, was admitted to the PICU with acute chest pain and difficulty breathing. Despite being on low-dose aspirin, her oxygen saturation was 86% on room air. A CT angiography revealed a pulmonary embolism (PE) in the left lower lobe and signs of right heart strain. The patient was hemodynamically stable, and thrombolytic therapy was deferred in favor of anticoagulation. She was placed on BiPAP to improve her respiratory status. Her social history was negative for smoking, illicit drug use, or oral contraceptive use.

    Key Case Points
    • Diagnosis: Pulmonary embolism (PE)
    • Hemodynamics: Stable with no right ventricular (RV) strain on echocardiogram
    • Management Focus: Anticoagulation and consultation with the hematology/thrombosis team

    Expert Discussion with Dr. Karen ZimowskiRisk Factors and Epidemiology of VTE in Pediatrics
    • Pathophysiology: Venous thromboembolism (VTE) in children involves components of Virchow’s triad: stasis of blood flow, endothelial injury, and hypercoagulability.
    • Incidence: VTE is rare in the general pediatric population but increases significantly in hospitalized children.
    • Age Distribution: Bimodal peaks in infants and adolescents aged 15-17 years.
    • Risk Factors: Central venous lines, infections, congenital heart disease, cancer, and autoimmune disorders.

    Clinical Manifestations of DVT
    • Symptoms: Swelling, pain, warmth, and skin discoloration in the affected extremity.
    • Specific Presentations:
    • SVC syndrome from superior vena cava thrombosis
    • Abdominal pain from portal vein thrombosis
    • Hematuria from renal vein thrombosis
    • Neurological symptoms...
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    50 mins
  • PICU Doc on Call Shorts: Alveolar Gas Equation
    Apr 28 2024

    Welcome to PICU Doc On Call, where Dr. Pradip Kamat from Children’s Healthcare of Atlanta/Emory University School of Medicine and Dr. Rahul Damania from Cleveland Clinic Children’s Hospital delve into the intricacies of Pediatric Intensive Care Medicine. In this special episode of PICU Doc on Call shorts, we dissect the Alveolar Gas Equation—a fundamental concept in respiratory physiology with significant clinical relevance.

    Key Concepts Covered:

    • Alveolar Gas Equation Demystified: Dr. Rahul explains the Alveolar Gas Equation, which calculates the partial pressure of oxygen in the alveoli (PAO2). This equation, PAO2 = FiO2 (Patm - PH2O) - (PaCO2/R), is essential in understanding hypoxemia and the dynamics of gas exchange in the lungs.
    • Calculating PAO2: Using the Alveolar Gas Equation, the hosts demonstrate how to calculate PAO2 at sea level, emphasizing the influence of atmospheric pressure, fraction of inspired oxygen (FiO2), water vapor pressure, arterial carbon dioxide pressure (PaCO2), and respiratory quotient (R) on oxygenation.
    • A-a Gradient and Hypoxemia: The A-a gradient, derived from the Alveolar Gas Equation, is discussed in the context of hypoxemia evaluation. Understanding the causes of hypoxemia, including ventilation/perfusion (V/Q) mismatch, anatomical shunt, diffusion defects, and hypoventilation, is crucial for clinical diagnosis and management.
    • Clinical Scenarios and A-a Gradient Interpretation: Through a clinical scenario, the hosts elucidate how different conditions affect the A-a gradient and oxygenation, providing insights into respiratory pathophysiology and differential diagnosis.
    • Clinical Implications and Management Strategies: The hosts highlight the clinical significance of the Alveolar Gas Equation in assessing oxygenation status, diagnosing gas exchange abnormalities, and tailoring respiratory management strategies in the pediatric intensive care setting.

    Key Takeaways:

    • Utility of the Alveolar Gas Equation: Understanding and applying the Alveolar Gas Equation is essential for evaluating oxygenation and diagnosing respiratory abnormalities.
    • Interpreting A-a Gradient: A normal A-a gradient suggests alveolar hypoventilation as the likely cause of hypoxemia, whereas elevated gradients indicate other underlying pathologies.
    • Clinical Relevance: Recognizing the clinical implications of the Alveolar Gas Equation aids in accurate diagnosis and optimal management of respiratory conditions in pediatric intensive care patients.

    Conclusion:

    Join Dr. Kamat and Dr. Damania as they unravel the complexities of the Alveolar Gas Equation, providing valuable insights into respiratory physiology and its clinical applications. Don’t forget to subscribe, share your feedback, and visit picudoconcall.org for more educational content and resources.

    References:

    • Fuhrman & Zimmerman - Textbook of Pediatric Critical Care Chapter: Physiology of the respiratory system. Chapter 42. Khemani et al. Pages 470-481
    • Rogers textbook of Pediatric intensive care: Chapter 44....
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    20 mins
  • PICU Management of Malignant Hyperthermia
    Apr 14 2024

    Welcome to PICU Doc On Call, A Podcast Dedicated to Current and Aspiring Intensivists.

    • Hosts:
    • Dr. Pradip Kamat: Children’s Healthcare of Atlanta/Emory University School of Medicine
    • Dr. Rahul Damania: Cleveland Clinic Children’s Hospital

    Introduction:

    • Pediatric Intensive Care Unit (PICU) physicians passionate about medical education in the acute care pediatric setting
    • Episode focus: A case of a 23-month-old ex-28 week premie presenting with sudden high fever and rapidly rising ETCO2 during surgery

    Case Presentation:

    • Presented by Dr. Rahul Damania
    • 23-month-old ex-28 week premie intubated during hernia repair surgery
    • Noticed rapidly rising ETCO2, unprovoked tachycardia, and elevated temperature
    • Transferred to PICU, exhibiting rigidity, clenched jaw, metabolic acidosis, and elevated lactate.
    • Consideration of Malignant Hyperthermia (MH) crisis

    Key Points:

    • Elevated temperature, hypercapnia, metabolic acidosis, and unprovoked tachycardia raise concern for MH
    • Organized discussion on pathophysiology, clinical signs, symptoms, and management

    Multiple Choice Question:

    • Diagnosis of MH crisis during scoliosis repair
    • Correct Answer: D) Sarcoplasmic reticulum
    • Dantrolene acts on the sarcoplasmic reticulum to inhibit calcium release, crucial in MH management

    Clinical Presentation of MH Crisis:

    • Tachycardia, acidosis, muscle stiffness, and hyperthermia are hallmark features
    • Potential life-threatening complications underscore the urgency of recognition and treatment

    Triggers and Pathophysiology of MH Crisis:

    • Triggered by inhalational agents and depolarizing neuromuscular blocking agents
    • Pathophysiology involves defective Ryanodine receptor leading to uncontrolled calcium release

    Differential Diagnosis:

    • Includes sepsis, thyroid storm, pheochromocytoma, and neuroleptic malignant syndrome
    • Differentiation from similar conditions crucial for accurate management

    Diagnostic Approach:

    • High clinical suspicion
    • Genetic testing (ryanodine...
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    30 mins
  • Approach to Calcium Channel Blocker Overdose
    Feb 25 2024

    Show Introduction

    • Welcome to PICU Doc On Call, a podcast dedicated to current and aspiring intensivists.
    • Hosted by Dr. Pradip Kamat and Dr. Rahul Damania

    Case Presentation

    • A 14-year-old female with a history of depression and oppositional defiant disorder presents with dizziness, slurring speech, and is pale appearance.
    • The mother noticed symptoms of dizziness, stumbling, and sleepiness.
    • The patient had a prior suicide attempt.
    • Vital signs: HR 50 bpm, BP 75/40, GCS 10.
    • The initial workup reveals hyperglycemia, and she is stabilized and admitted to the PICU.

    Key Aspects of Ingestion Work-up

    • History and physical exam are crucial.
    • Stratify acute or chronic ingestions.
    • Consider baseline medications and coingestants.
    • Perform initial screening examination to identify immediate measures for stabilization.

    Diagnostic Studies

    • Pulse oximetry, continuous cardiac monitoring, ECG, capillary glucose measurement.
    • Serum acetaminophen, ASA levels
    • Consider extended toxicology screen.

    Differentiating CCB vs. Beta-Blocker Overdose

    • ECG findings: PR interval prolongation and Bradydysrhythmia suggest CCB poisoning.
    • Hyperglycemia in non-diabetic patients may indicate CCB overdose

    Approach to CCB Overdose

    • Initial resuscitation and stabilization
    • ABC approach
    • Consult Poison Control Center
    • Empiric use of glucagon, IV fluids, and vasopressors
    • Consideration of orogastric lavage and activated charcoal

    Specific Medical Therapies

    • Vasopressors: norepinephrine/epinephrine infusion
    • Atropine for bradycardia
    • IV calcium salts to overcome cardiovascular effects
    • High-dose insulin and dextrose for myocardial function
    • Investigational therapies: methylene blue, lipid emulsion

    Procedures

    • Transvenous pacemaker placement if needed
    • ECMO in refractory...
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    26 mins