Rosen & Barkin's 5-Minute Emergency Medicine Consult (143 page)

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Authors: Jeffrey J. Schaider,Adam Z. Barkin,Roger M. Barkin,Philip Shayne,Richard E. Wolfe,Stephen R. Hayden,Peter Rosen

Tags: #Medical, #Emergency Medicine

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DIAGNOSIS
SIGNS AND SYMPTOMS

Classic description:

  • Acute, unilateral, painless vision loss
  • “Blood and thunder” appearance on fundoscopy
History
  • Painless, unilateral vision loss
  • If nonischemic, may be incomplete and intermittent vision loss
Physical-Exam
  • Decreased visual acuity:
    • Usually worse than 20/200
  • Afferent pupillary defect
  • Dilated tortuous veins
  • Retinal hemorrhages:
    • If central, findings in all 4 quadrants
    • Extensive hemorrhages give a dramatic look to fundus classically described as “blood and thunder appearance.”
  • Disk edema
  • Cotton wool spots
ESSENTIAL WORKUP
  • BP
  • Visual acuity:
    • Hand movements typically is all that is seen.
  • Visual fields
  • Fundoscopy
  • Tonometry:
    • Normal pressures are between 10 and 21 mm Hg.
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • CBC
  • PT/PTT
  • ESR
  • ANA
  • Serum protein electrophoresis
Imaging

Fluorescein angiography:

  • Ophthalmologists use this to map areas of nonperfusion.
  • Differentiates between ischemic and nonischemic
Diagnostic Procedures/Surgery

Gonioscopy:

  • Measure iris or angle neovascularization.
DIFFERENTIAL DIAGNOSIS
  • Amaurosis fugax/transient ischemic attack
  • Cavernous sinus thrombosis
  • DM
  • HTN/hypertensive retinopathy
  • Hyperviscosity syndromes:
    • Sickle cell, polycythemia, leukemia, multiple myeloma
  • Hysterical blindness
  • Ocular ischemia syndrome
  • Papilledema
  • Retinal artery occlusion
  • Retinal detachment
  • Severe anemia with thrombocytopenia
  • Temporal arteritis
  • Vitreal hemorrhage
TREATMENT
PRE HOSPITAL

No specific interventions need occur prior to arrival at the hospital in regard to the eye.

INITIAL STABILIZATION/THERAPY
  • Initiate steps to lower intraocular pressure (IOP) if it is elevated.
  • Treat underlying medical problems.
ED TREATMENT/PROCEDURES
  • Recognition and prompt ophthalmologic referral is the cornerstone of ED treatment.
  • Though not proven, the following may be tried in consultation with an ophthalmologist:
    • Aspirin
    • Anti-inflammatory agents
    • Systemic steroids
    • Systemic anticoagulation
    • Fibrinolytics (controversial)
    • Laser chorioretinal anastomosis
MEDICATION

There is no proven treatment for CRVO, ophthalmologists may treat with the following:

  • Intravitreal triamcinolone
  • Antivascular endothelial growth factor:
    • Bevacizumab
Considerations in Prescribing

Use of oral contraceptives can increase the risk of CRVO.

FOLLOW-UP
DISPOSITION
Admission Criteria

Patients may be admitted for surgical intervention, depending upon the ophthalmologist.

Discharge Criteria

Patients can be discharged from the ED as long as they have immediate follow-up with an ophthalmologist.

Issues for Referral
  • If no ophthalmologist is available, treatment should be initiated for concomitant conditions and patient transferred to nearest hospital with ophthalmologic consultation.
  • Ophthalmologists often perform panretinal photocoagulation if neovascularization is found.
FOLLOW-UP RECOMMENDATIONS
  • Patients with ischemic CRVO need prolonged follow-up to catch neovascularization and glaucoma that typically develop.
  • Patients with CRVO likely have other vascular diseases and need complete medical workups.
  • Patients should also follow with an internist to manage comorbidities and risk factors.
PEARLS AND PITFALLS
  • Increased IOP resulting from neovascularization and edema can cause vascular insufficiency and with delayed treatment vision loss can be permanent.
  • When patients present with bilateral CRVOs or CRVO at a young age, workup must search for hyperviscosity syndromes.
ADDITIONAL READING
  • Beran DI, Murphy-Lavoie H. Acute painless vision loss.
    J La State Med Soc
    . 2009;161(4):214–223.
  • Di Capua M, Coppola A, Albisinni R, et al. Cardiovascular risk factors and outcome in patients with retinal vein occlusion.
    J Thromb Thrombolysis
    . 2009.
  • Khare GD, Symons RC, Do DV, et al. Common ophthalmologic emergencies.
    Int J Clin Pract
    . 2008;62(11):1776–1784.
  • Marx JA, Hockberger RS, Walls RM, eds.
    Rosen’s Emergency Medicine: Concepts and Clinical Practice
    . 7th ed. St. Louis, MO: Mosby; 2010.
  • McAllister IL. Central retinal vein occlusion: A review.
    Clin Experiment Ophthalmol.
    2012;40(1):48–58.
  • Turello M, Pasca S, Daminato R, et al. Retinal vein occlusion: Evaluation of “classic” and “emerging” risk factors and treatment.
    J Thromb Thrombolysis
    . 2009.
  • Yanoff M, Duker J.
    Ophthalmology
    . 3rd ed. St. Louis, MO: Mosby; 2008.
See Also (Topic, Algorithm, Electronic Media Element)
  • Central Retinal Artery Occlusion
  • Visual Loss
CODES
ICD9

362.35 Central retinal vein occlusion

ICD10
  • H34.811 Central retinal vein occlusion, right eye
  • H34.812 Central retinal vein occlusion, left eye
  • H34.819 Central retinal vein occlusion, unspecified eye
CEREBRAL ANEURYSM
Veronique Au

Rebecca Smith-Coggins
BASICS
DESCRIPTION
  • Abnormal, localized dilation or outpouching of cerebral artery wall:
    • Occurs in 5–10% of population
  • Rupture of saccular aneurysms account for 5–15% of strokes
  • Of those that rupture:
    • 40% occur at anterior communicating artery (ACA)
    • 30% at internal carotid (IC)
    • 20% in middle cerebral artery (MCA)
    • 5–10% in vertebrobasilar artery (VBA) system
ETIOLOGY
  • Asymptomatic in 3.2% of population
  • “Congenital,” saccular, or berry aneurysms most common (90%):
    • Develop at weak points in arterial wall and bifurcations of major cerebral arteries
    • Incidence increases with age
    • Multiple in 20–30%
    • Increased incidence:
      • Polycystic kidney disease
      • Cerebral arteriovenous malformation
      • Type III collagen deficiency
      • Fibromuscular dysplasia
      • Ehlers–Danlos syndrome
      • Marfan syndrome
      • Pseudoxanthoma elasticum
      • Neurofibromatosis
      • Moyamoya syndrome
      • Coarctation of the aorta
      • Tuberous sclerosis
      • Sickle cell disease
      • Osler–Weber–Rendu syndrome
      • α1-Antitrypsin deficiency
      • Systemic lupus erythematosus
      • Glucocorticoid remediable hyperaldosteronism
  • Arteriosclerotic, fusiform, or dolichoectatic (7%):
    • More common in peripheral arteries
  • Inflammatory (mycotic):
    • 10% of patients with bacterial endocarditis
  • Traumatic, associated with severe closed head injury
  • Neoplastic, embolized tumor fragments
  • Familial correlation: 1st-degree relative with history of aneurysm essentially doubles lifetime risk

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