Friday Board Review

Friday Board Review

A 64-year-old male with a history of ischemic cardiomyopathy and an implanted cardioverter-defibrillator (ICD) presents to the emergency department after experiencing multiple ICD shocks over the past two hours. His medications include carvedilol, lisinopril, and furosemide. On arrival, he is awake but visibly anxious, with the following vitals:

  • HR: 120 bpm, irregular
  • BP: 110/70 mmHg
  • SpO₂: 96% on room air
  • ECG shows polymorphic ventricular tachycardia (VT) with recurrent defibrillation by the ICD.

What is the next best step in the management of this patient?

A) Administer intravenous amiodarone and sedate the patient for synchronized cardioversion
B) Start intravenous lidocaine and perform overdrive pacing
C) Administer a beta-blocker intravenously and titrate to HR
D) Provide deep sedation with propofol and consider catheter ablation
E) Correct reversible causes while initiating antiarrhythmic therapy and sympathetic blockade

Correct Answer: E) Correct reversible causes while initiating antiarrhythmic therapy and sympathetic blockade

Explanation:

Electrical storm (ES) is defined as three or more episodes of ventricular tachycardia (VT) or ventricular fibrillation (VF) requiring ICD intervention within 24 hours. It is a medical emergency that necessitates prompt stabilization and definitive therapy.

  1. Initial Priorities:
    • Assess hemodynamic stability and airway, breathing, circulation (ABCs).
    • Provide analgesia and sedation if the patient is experiencing painful ICD shocks.
  2. Correct Reversible Causes:
    Common triggers include electrolyte disturbances (e.g., hypokalemia, hypomagnesemia), ischemia, or drug toxicity. These should be addressed first, as they may alleviate the electrical storm.
  3. Antiarrhythmic Therapy:
    • Amiodarone is often the first-line agent due to its efficacy in controlling polymorphic VT or VF.
    • Lidocaine may also be used, particularly in ischemic VT.
  4. Sympathetic Blockade:
    • Beta-blockers (e.g., esmolol) help reduce sympathetic tone, which is a key driver of electrical instability. However, they should be used cautiously in patients with hypotension.
  5. Additional Measures:
    • Deep sedation or anesthesia (e.g., with propofol) can reduce sympathetic drive in refractory cases.
    • Catheter ablation may be considered for recurrent arrhythmias not controlled with medical therapy.

Incorrect Responses:

A) Administer intravenous amiodarone and sedate the patient for synchronized cardioversion:

  • While amiodarone is appropriate, synchronized cardioversion is not indicated for polymorphic VT unless the patient is unstable or pulseless.

B) Start intravenous lidocaine and perform overdrive pacing:

  • Overdrive pacing is rarely the first intervention and is typically reserved for monomorphic VT or when ICD therapies fail.

C) Administer a beta-blocker intravenously and titrate to HR:

  • Beta-blockers are important for sympathetic blockade but should not be the sole treatment in ES. They are adjunctive to antiarrhythmic therapy.

D) Provide deep sedation with propofol and consider catheter ablation:

  • Sedation may help with ICD shock-related distress but does not address the underlying arrhythmia. Catheter ablation is not a first-line therapy in acute management.

Key Learning Points:

  • Electrical storm requires a multifaceted approach, including correction of reversible causes, antiarrhythmic therapy, and sympathetic blockade.
  • Stabilizing the patient’s hemodynamics and addressing the underlying trigger are essential for successful management.
  • Involve cardiology and electrophysiology early for advanced therapies, such as catheter ablation.

References:

A 64-year-old male with a history of ischemic cardiomyopathy and an implanted cardioverter-defibrillator (ICD) presents to the emergency department after experiencing multiple ICD shocks over the past two hours. His medications include carvedilol, lisinopril, and furosemide. On arrival, he is awake but visibly anxious, with the following vitals:

  • HR: 120 bpm, irregular
  • BP: 110/70 mmHg
  • SpO₂: 96% on room air
  • ECG shows polymorphic ventricular tachycardia (VT) with recurrent defibrillation by the ICD.

What is the next best step in the management of this patient?

A) Administer intravenous amiodarone and sedate the patient for synchronized cardioversion
B) Start intravenous lidocaine and perform overdrive pacing
C) Administer a beta-blocker intravenously and titrate to HR
D) Provide deep sedation with propofol and consider catheter ablation
E) Correct reversible causes while initiating antiarrhythmic therapy and sympathetic blockade

Correct Answer: E) Correct reversible causes while initiating antiarrhythmic therapy and sympathetic blockade

Explanation:

Electrical storm (ES) is defined as three or more episodes of ventricular tachycardia (VT) or ventricular fibrillation (VF) requiring ICD intervention within 24 hours. It is a medical emergency that necessitates prompt stabilization and definitive therapy.

  1. Initial Priorities:
    • Assess hemodynamic stability and airway, breathing, circulation (ABCs).
    • Provide analgesia and sedation if the patient is experiencing painful ICD shocks.
  2. Correct Reversible Causes:
    Common triggers include electrolyte disturbances (e.g., hypokalemia, hypomagnesemia), ischemia, or drug toxicity. These should be addressed first, as they may alleviate the electrical storm.
  3. Antiarrhythmic Therapy:
    • Amiodarone is often the first-line agent due to its efficacy in controlling polymorphic VT or VF.
    • Lidocaine may also be used, particularly in ischemic VT.
  4. Sympathetic Blockade:
    • Beta-blockers (e.g., esmolol) help reduce sympathetic tone, which is a key driver of electrical instability. However, they should be used cautiously in patients with hypotension.
  5. Additional Measures:
    • Deep sedation or anesthesia (e.g., with propofol) can reduce sympathetic drive in refractory cases.
    • Catheter ablation may be considered for recurrent arrhythmias not controlled with medical therapy.

Incorrect Responses:

A) Administer intravenous amiodarone and sedate the patient for synchronized cardioversion:

  • While amiodarone is appropriate, synchronized cardioversion is not indicated for polymorphic VT unless the patient is unstable or pulseless.

B) Start intravenous lidocaine and perform overdrive pacing:

  • Overdrive pacing is rarely the first intervention and is typically reserved for monomorphic VT or when ICD therapies fail.

C) Administer a beta-blocker intravenously and titrate to HR:

  • Beta-blockers are important for sympathetic blockade but should not be the sole treatment in ES. They are adjunctive to antiarrhythmic therapy.

D) Provide deep sedation with propofol and consider catheter ablation:

  • Sedation may help with ICD shock-related distress but does not address the underlying arrhythmia. Catheter ablation is not a first-line therapy in acute management.

Key Learning Points:

  • Electrical storm requires a multifaceted approach, including correction of reversible causes, antiarrhythmic therapy, and sympathetic blockade.
  • Stabilizing the patient’s hemodynamics and addressing the underlying trigger are essential for successful management.
  • Involve cardiology and electrophysiology early for advanced therapies, such as catheter ablation.

References:

Tuesday Advanced Cases & Procedure Pearls

Scapholunate Dissociation

HPI: Pt is a 41 y/o male who presents to the ED w/ significant wrist pain s/p MVC. He was the unrestrained driver of a car, T boned at a moderate speed, + broken windshield, + airbag deployment, – entrapment. R wrist is swollen tender over the mid dorsal aspect w/o any open lacerations. 

Vitals: HR 101, BP 121/91, Temp 98F, RR 15

Physical Exam: GCS 15 Cardiac, Pulm & Abd unremarkable.

Extremities: LUE, LLE, RLE – unremarkable. RUE: Strength 5/5 throughout, sensation intact at C5-T1 and distally, able to make an “okay”, “thumbs up” sign. Point tenderness over R dorsal mid wrist and snuff box w/o deformity or skin changes, + swelling, compartments soft. Limitation w/ flexion/extension of the R wrist, normal finger cascade when closing hand,

Differential: Scaphoid fracture, scapholunate dissociation, proximal MCP fracture, distal radius or ulnar fracture, other carpal injury.

Xray

Scapholunate Dissociation is a common result of hand trauma and it may be acute (traumatic) or chronic (in the setting of degenerative injuries). Often associated w/ intraarticular distal radius and other carpal fractures. Mechanism typically involves forced wrist extension and ulnar deviation. Think FOOSH injury.

Associated injury often is a “DISI” – Dorsal Intercalated Segmental Instability. A scapholunate dissociation causes the scaphoid bone to rotate anterior while lunate rotates posteriorly – if untreated can progress to chronic degenerative arthritis.

Diagnosis: XR AP radiograph: > 3mm of widening between the scaphoid and lunate on a “clenched fist view”.

Signet Ring Sign: indicative of a scapholunate dissociation. As the scaphoid rotates the scaphoid tubercle appears more rounded. Can also be seen in perilunate and lunate dislocations.

Treatment: Pain control, splinting (sugar tong or thumb spica) and repeat imaging in 1-2 weeks w/ ortho followup. Often requires operative fixation in outpt setting. If associated w/ perilunate, lunate, scaphoid dislocation – requires urgent reduction prior discharge.

Complications: Chronic pain and degenerative disease of associated structures, neurovascular compromise, joint instability

References:

1. Stevenson M, Levis JT. Image diagnosis: Scapholunate dissociation. The Permanente journal. 2019. Accessed January 14, 2025. https://pmc.ncbi.nlm.nih.gov/articles/PMC6443367/#f1-18-237. 

2. Scapholunate ligament tear – cortical ring sign | radiology case | radiopaedia.org. Accessed January 15, 2025. https://radiopaedia.org/cases/scapholunate-ligament-tear-cortical-ring-sign. 

3. Scapholunate Ligament Injury & Disi. Orthobullets. Accessed January 14, 2025. https://www.orthobullets.com/hand/6041/scapholunate-ligament-injury-and-disi. 

4. Rap corependium. EM. Accessed January 14, 2025. https://www.emrap.org/corependium/chapter/recrf1uDQslSAzIEL/Wrist-Dislocations#h.t4rehgq0mdhi. 

Tuesday Advanced Cases & Procedure Pearls

STEMI or No STEMI?

On a busy mid shift, you are handed this EKG for a 76 y/o pt presenting with known CAD complaining of chest pain. VS stable. What’s your interpretation and what’s your next step?

Aslanger – An Occlusive Myocardial Infarction Equivalent

13% of acute anterior myocardial infarctions

Found in 6.3% of NSTEMI

ECG Criteria: (must meet all criteria)

Isolated ST Elevations in lead III (not any other inferior leads)

ST Depressions in V4, V5 or V6

ST segment in V1 > V2

Next Step -> Call the STEMI phone!

References:

1. Liu M, Li H, Li A, et al. A patient with acute myocardial infarction with Electrocardiogram Aslanger’s pattern – BMC cardiovascular disorders. BioMed Central. January 2, 2024. Accessed January 8, 2025. https://bmccardiovascdisord.biomedcentral.com/articles/10.1186/s12872-023-03678-x. 

2. Buttner R, Cadogan M, Cadogan RB and M. Aslanger pattern: Another omi? Life in the Fast Lane • LITFL. January 28, 2021. Accessed January 8, 2025. https://litfl.com/aslanger-pattern/. 

Friday Board Review

Friday Board Review

A 58-year-old man with a history of diabetes mellitus and obesity presents to the emergency department reporting groin pain, fever, and malaise. HR 112, BP 105/68, RR 18, SpO2 98%, Temp 101.3F.  

Physical examination reveals erythema, foul-smelling drainage. You appreciate crepitus in the perineal region.

Laboratory studies show a white blood cell count of 21,000/μL, blood glucose of 350 mg/dL, and serum lactate of 4.3 mmol/L.

Which of the following is the most appropriate next step in the management of this patient?

A) Start intravenous antibiotics and perform wide surgical debridement.
B) Obtain a CT scan of the pelvis to evaluate the extent of tissue involvement.
C) Administer intravenous antibiotics and observe for clinical improvement.
D) Perform bedside incision and drainage in the emergency department.
E) Consult urology for elective surgical management.

Answer: A) Start intravenous antibiotics and perform wide surgical debridement.

Explanation:

The patient is presenting with history and physical exam findings concerning for Fournier’s Gangrene

Correct Answer: 

A) Fournier’s gangrene is a rapidly progressive, necrotizing fasciitis of the perineum, scrotum, and/or genital area. It is a surgical emergency that requires prompt intervention. The mainstay of treatment includes broad-spectrum intravenous antibiotics (1st line: Vancomycin and Zosyn) to cover aerobic and anaerobic bacteria. If concern for shock, or known Group A strep infection, add Clindamycin to suppress toxin and cytokine production.

Urgent surgical debridement should be performed to remove necrotic tissue and control the spread of infection. Delay in surgical intervention significantly increases mortality.

Incorrect Answers:

B) Obtain a CT scan of the pelvis: While imaging such as CT may provide detailed information about the extent of tissue involvement, it should not delay definitive surgical treatment. Clinical findings are typically sufficient to diagnose Fournier’s gangrene.

C) Administer intravenous antibiotics and observe for clinical improvement: Antibiotics alone are insufficient for the treatment of Fournier’s gangrene. Without surgical debridement, the infection will likely progress.

D) Perform bedside incision and drainage in the emergency department: Fournier’s gangrene requires wide surgical debridement under appropriate sterile conditions in the operating room, rather than limited bedside procedures.

E) Consult urology for elective surgical management: Fournier’s gangrene is a medical and surgical emergency that demands immediate intervention. Elective management is inappropriate in this life-threatening condition.

Teaching Points:

  • Risk Factors: Diabetes mellitus, obesity, immunosuppression, and trauma to the perineal region
  • Clinical Presentation: Severe pain, swelling, erythema, crepitus, systemic signs of sepsis, and foul-smelling discharge
  • Management:
    • Broad-spectrum antibiotics (e.g., Vancomycin + piperacillin-tazobactam + clindamycin)
      • If Penicillin allergy: Cefepime + Metronidazole
    • Emergent surgical debridement in OR to remove necrotic tissue
    • Supportive care, including fluid resuscitation and glycemic control
  • Complications: High mortality rate if not treated promptly

References

CorePendium, Fournier Gangrene

Friday Board Review

Friday Board Review

A 62-year-old man with a history of hypertension, coronary artery disease, and recent hip replacement surgery presents to the emergency department with acute onset of pleuritic chest pain, dyspnea, and dizziness. On examination, his blood pressure is 85/60 mm Hg, heart rate is 120 bpm, and respiratory rate is 24/min. He is mildly confused, and his oxygen saturation is 88% on room air. A CT pulmonary angiogram reveals a massive pulmonary embolism (PE) in the right main pulmonary artery. The patient is in shock, with signs of right heart strain.

Which of the following is the most appropriate next step in management?

A) Administer intravenous unfractionated heparin and monitor in the intensive care unit
B) Initiate fibrinolytic therapy and transfer to the intensive care unit
C) Start oral apixaban and admit for observation
D) Perform immediate surgical embolectomy and transfer to the intensive care unit
E) Place an inferior vena cava (IVC) filter and admit for observation

Explanation:

This patient is presenting with a massive pulmonary embolism (PE), which is defined by PE causing hemodynamic instability (e.g., shock or hypotension). The diagnosis is confirmed by a CT pulmonary angiogram, which shows a large embolus in the right main pulmonary artery, however, patients will not be stable enough to confirm on CT. Patients will commonly demonstrate signs of right heart strain (e.g., tachycardia, hypotension, and altered mental status). POCUS can be used to quickly assess for R heart strain and IVC distention at the bedside. R heart strain indicates the severity of the embolism and the impaired ability of the right ventricle to pump blood effectively against the obstructed pulmonary circulation.

Management of massive PE with hemodynamic instability involves:

  • Fibrinolytic therapy (Option B): In patients with massive PE, fibrinolytic therapy (tPA) is the first-line treatment when there is evidence of hemodynamic instability (e.g., hypotension, shock). The goal is to rapidly dissolve the thrombus, reduce pulmonary artery pressure, and restore hemodynamic stability. Drugs like tPA (tissue plasminogen activator) or alteplase are used for this purpose. These patients need to be closely monitored in an intensive care unit (ICU) due to the risk of bleeding complications and ongoing cardiovascular instability.

Why the other options are not correct:

  • Unfractionated heparin and ICU monitoring (Option A): While anticoagulation therapy is essential in PE management, heparin alone is not adequate for massive PE with shock. For hemodynamically unstable patients, fibrinolysis is preferred as the first-line therapy to rapidly restore circulation. Heparin would be considered in patients with low- or intermediate-risk PE but not in massive PE with shock.
  • Oral apixaban and observation (Option C): Oral anticoagulants like apixaban are used for stable patients with non-massive PE who do not require urgent interventions. This patient is unstable, so starting oral anticoagulation alone is not sufficient, and immediate fibrinolysis or surgical intervention is required.
  • Surgical embolectomy (Option D): Surgical embolectomy can be considered if fibrinolysis fails or if the patient is not a candidate for fibrinolytic therapy (e.g., contraindications to fibrinolysis like active bleeding). However, it is not the first-line treatment for massive PE with shock, and it carries more risks than fibrinolysis, including longer procedure time and surgical complications.
  • IVC filter placement and observation (Option E): An inferior vena cava (IVC) filter is used in patients who have contraindications to anticoagulation or in those with recurrent embolism despite appropriate anticoagulation. It is not a treatment for acute massive PE or shock and does not address the immediate need to remove the thrombus or restore pulmonary circulation. IVC filters are primarily used for secondary prevention of PE, not in the acute management of unstable patients.

Summary:

In patients with a massive pulmonary embolism and hemodynamic instability (shock), fibrinolytic therapy is the most appropriate initial treatment (Option B), with subsequent ICU monitoring to manage complications and ensure hemodynamic stabilization.

Tuesday Advanced Cases & Procedure Pearls

Visual Changes

By Dr. Edward Guo

Case: A 70 year old male with a past medical history of hypertension, type 2 diabetes, and atrial fibrillation on warfarin presents for visual changes. He is accompanied by his daughter who states that about one hour ago, his vision on the right side became blurry. There is associated right facial numbness and headache. His daughter believes that he has become more confused over this time period. Fingerstick glucose is 220. An EKG is obtained which shows atrial fibrillation at a rate of 92.

Exam: BP 151/75, HR 92, T 97.8F, RR 18, SpO2 98%

Comfortable appearing in no acute distress. GCS E4 V4 M6. No facial droop. Decreased sensation to right side of face. 5/5 strength and sensation in all extremities. No difficulty with rapid alternating movements. Extraocular motion intact. Left gaze preference with right sided homonymous hemianopia. 

Differential diagnosis: acute ischemic stroke, spontaneous intracranial hemorrhage, complex migraine, toxic-metabolic encephalopathy

Case continued: Neurology is emergently consulted and a stroke alert is activated. CT/CTA of the head and neck shows no acute intracranial hemorrhage and no large vessel occlusion. Labs are notable for an INR of 1.6. The decision is made in conjunction with neurology to administer thrombolytics, and the patient is admitted to neurology critical care. Repeat head CT 24 hours later demonstrates a left parieto-occiptal infarct. 

Pearls:

  • This patient’s neurologic deficits including right sided facial numbness, right homonymous hemianopsia, left sided gaze preference, and aphasia localize to a cortical distribution as noted above.
  • Warfarin use alone is not a contraindication to thrombolytics for acute ischemic stroke. The INR must be > 1.7 in addition to be an exclusion criterion.
    • This patient had multiple previous subtherapeutic outpatient INR levels which likely precipitated an embolic stroke.
  • In patients without contraindications, the decision to administer thrombolytics for acute ischemic stroke should be clinical without waiting for results of laboratory testing with the exception of a point of care glucose and patients with suspected coagulopathy. 
  • Other common exclusion criteria to the use of thrombolytics in acute ischemic stroke include previous head trauma or stroke within 3 months, any previous intracranial hemorrhage, SBP > 185 or DBP > 110, or known intracranial mass such as neoplasm or aneurysm. 

References:

Go S, Kornegay J. Stroke Syndromes. In: Tintinalli JE, Ma O, Yealy DM, Meckler GD, Stapczynski J, Cline DM, Thomas SH. eds. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 9e.
Powers WJ, Rabinstein AA, Ackerson T, et al. 2018 Guidelines for the Early Management of Patients With Acute Ischemic Stroke: A Guideline for Healthcare Professionals From the American Heart Association/American Stroke Association [published correction appears in Stroke. 2018 Mar;49(3):e138] [published correction appears in Stroke. 2018 Apr 18;:]. Stroke. 2018;49(3):e46-e110. doi:10.1161/STR.0000000000000158

Wednesday Image Review

From the Archives: What is the diagnosis? By Dr. Guo

A 2 year old with no past medical history presents with severe left leg pain after falling off a trampoline. He is crying and refusing to bear weight or straighten his left leg. The extremity is otherwise neurovascularly intact. An XR of his left lower leg is shown below. What’s the diagnosis and specifically what type of fracture is it?

Answer: Salter-Harris type II fracture of the proximal left tibia

  • Salter-Harris fractures are fractures of the growth plate, and there are 5 types which are commonly learned with the mnemonic SALTER
Salter Harris TypeLocationManagement
1 (Slipped)Epiphysis separated from metaphysisBrace, follow up with pediatrician
2 (Above)Extends though physis and into metaphysisSplint, NWB, ortho follow up
3 (Lower)Extends into intra-articular spaceSplint, ED ortho consult
4 (Through)Extends through metaphysis, physis, and epiphysisSplint, ED ortho consult
5 (ERased)Physis compression Splint, ED ortho consult

References:

Mayersak R.J. (2020). Initial evaluation and management of orthopedic injuries. Tintinalli J.E., & Ma O, & Yealy D.M., & Meckler G.D., & Stapczynski J, & Cline D.M., & Thomas S.H.(Eds.), Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 9e. McGraw Hill.

Wednesday Image Review

What is the Diagnosis? By Dr. Cevallos

A 68 year old male with a history of DM, HTN, and breast cancer presents to the ED with progressively worsening dyspnea over the past three to four days. On exam she is tachycardic to 120, appears tachypneic with accessory muscle usage and pulse ox is 88% on room air. You perform a lung ultrasound which reveals the following:

What is the diagnosis?

Pleural Effusion.

Ultrasonographic findings of pleural effusion:

  • Fluid appears dark (anechoic) cephalad to the diaphragm and may be homogeneous or heterogeneous depending on the etiology of the fluid.
  • Lung may be seen as a triangle-like structure floating in the pleural fluid
  • Thoracic spine sign: the spine is able to be visualized due to loss of mirror artifact as a hyperechoic area posterior to the fluid as the fluid acts a medium through which the ultrasound waves can be transmitted

Case continued:

A pigtail was placed to remove the fluid with the patient experiencing improvement in respiratory status status post drainage of approximately 800mL of fluid.

Resources:

Deschamps, Jade, and Vi Dinh. “Lung Ultrasound Made Easy: Step-By-Step Guide.” Pocus 101, 2023, www.pocus101.com/lung-ultrasound-made-easy-step-by-step-guide/. Accessed 6 Nov. 2024. Co-authors: Jessica Ahn, Satchel Genobaga, Annalise Lang, Victor Lee, Reed Krause, Devin Tooma, and Seth White. Oversight, review, and final edits by Vi Dinh.

Huang, Calvin, Andrew S. Liteplo, and Vicki E. Noble. “Lung and Thorax.” Practical Guide to Emergency Ultrasound, edited by Vicki E. Noble and Bret P. Nelson, 2nd ed., Cambridge University Press, 2011, pp. [specific page numbers if available].