Abdominal aortic aneurysm

Last updated: August 1, 2023

Summarytoggle arrow icon

Abdominal aortic aneurysm (AAA) is a focal dilatation of the abdominal aorta to more than 1.5 times its normal diameter. AAAs are classified by location as either suprarenal or infrarenal aneurysms. Men of advanced age are at increased risk for their formation; smoking and hypertension are also major risk factors. AAAs are frequently asymptomatic and therefore detected incidentally. Symptomatic AAAs can manifest with lower back pain, a pulsatile abdominal mass, and a bruit on auscultation. Abdominal ultrasound is the best initial and confirmatory test to diagnose AAAs and determine their extent. Observation, close follow-up, and reduction of cardiovascular risk factors are indicated for small aneurysms, whereas pronounced (> 5.5 cm) or rapidly expanding aneurysms require surgery. Surgical treatment involves open resection of the aneurysm with graft placement or, increasingly, endovascular stent placement. The prognosis is markedly worse if dissection or aneurysm rupture occurs. AAA rupture typically presents with sudden onset of severe tearing back or abdominal pain, a painful pulsatile mass, and hypovolemic shock, and should be managed with emergent surgery. All men between 65 and 75 years of age with a history of smoking should be screened once with an ultrasound to exclude an AAA. See also thoracic aortic aneurysm for more information.

Definitiontoggle arrow icon

  • Localized dilation of all three layers of the abdominal aortic wall (intima, media, and adventitia) to ≥ 3 cm [1]

Epidemiologytoggle arrow icon

  • Peak incidence: 60–70 years (rare in patients < 50 years)
  • Sex: > : ∼ 2:1

Epidemiological data refers to the US, unless otherwise specified.

Etiologytoggle arrow icon

Classificationtoggle arrow icon

Pathophysiologytoggle arrow icon


Clinical featurestoggle arrow icon

Aortic aneurysms are usually asymptomatic or have nonspecific symptoms. They are often discovered incidentally on ultrasound or CT scan. Rupture or dissection of the aneurysm is a life-threatening condition (see “Ruptured AAA”).

Diagnosticstoggle arrow icon

The diagnosis of AAA is confirmed by imaging showing aortic diameter > 3 cm. Unstable patients should be taken directly to the OR for emergency surgery if ruptured AAA is suspected (see ruptured AAA). There are no laboratory findings specific to AAA. [1]

Imaging should not delay treatment if AAA is suspected in hemodynamically unstable patients.

Imaging [6][7]

Abdominal ultrasound (formal ultrasound or POCUS)

If a large (> 5.5 cm) aneurysm is seen on ultrasound in a patient presenting with abdominal pain, refer the patient for treatment immediately.

CT angiography abdomen and pelvis

See “Ruptured AAA” for CT findings of acute aneurysmal rupture.

  • Indications
    • Imaging modality of choice in symptomatic patients and for preintervention planning
    • To help confirm the diagnosis when ultrasound is not possible in asymptomatic patients
    • More detailed evaluation of the location, size, and extent of the aneurysm, involvement of branch vessels, and presence of thrombus or rupture
  • Supportive findings
    • Dilatation of the aorta ≥ 3 cm and, possibly, branch vessels [1]
    • Reduced distribution of vasa vasorum may be seen. [10]
    • Thrombus may also be present (hypodense, nonenhancing).

MR angiography abdomen and pelvis with and without IV contrast

Arteriography (aortography abdomen)

  • Indications
    • To help confirm diagnosis or for preintervention planning if the patient has significant contraindications to CTA and MRA
    • More detailed assessment of the aortic lumen
  • Supportive findings: contrast column in the lumen of the aneurysm and branch vessels [6]
  • Disadvantage: may mask the actual diameter of the aneurysm (because a mural thrombus does not appear on arteriography)

Differential diagnosestoggle arrow icon

Abdominal vs. thoracic aortic aneurysm
Characteristics Abdominal aortic aneurysm Thoracic aortic aneurysm


  • Advanced age
  • Predominantly men
  • More common than TAA
  • Advanced age
  • Predominantly men
Clinical features
  • Feeling of pressure in the chest
  • Thoracic back pain
  • Indications for repair
    • Diameter: ≥ 5.5 cm
    • Expansion rate: ≥ 1 cm/year
    • Symptomatic aneurysm
    • Complications (e.g., rupture)
  • Indications for repair
    • Diameter: ascending aneurysm ≥ 5.5 cm; descending aneurysm ≥ 6.5 cm
    • Expansion rate: ≥ 1 cm/year
    • Symptomatic aneurysm
    • Complications (e.g., rupture)

The differential diagnoses listed here are not exhaustive.

Treatmenttoggle arrow icon

Approach [1][12]

  • Patients with any symptoms: immediate vascular surgery consult
    • Suspected or known rupture (regardless of patient stability) : emergency repair within 90 minutes (see “Ruptured AAA”)
    • Patients with signs or symptoms of impending rupture; : urgent aneurysm repair, ideally within normal working hours, as this is associated with better outcomes Consider stabilizing comorbidities for a successful outcome unless this delays surgery by more than a few hours; the patient should be monitored in the ICU in the meantime.
      • Ensure blood product availability.
      • Maintain BP strictly within normal parameters.
      • Consult anesthesia.
      • Optimize the treatment of and stabilize any comorbidities that could increase perioperative risk (e.g., ADHF, AKI).
  • Asymptomatic patients: elective aneurysm repair or aneurysm surveillance
  • All patients: reduction of cardiovascular risk [1]

Consult vascular surgery and the ICU about any patients with a symptomatic AAA.

Invasive treatment: AAA repair

Procedures [1]

The long-term survival and complication rates of endovascular and open surgical repair are similar, and these procedures each have their advantages and disadvantages.

  • Endovascular aneurysm repair (EVAR)
    • Indications: minimally invasive procedure that is preferred over open surgical repair for most aneurysms, especially in patients with a high operative risk
    • Procedure: Under fluoroscopic guidance, an expandable stent graft is placed via the femoral or iliac arteries intraluminally at the site of the aneurysm.
    • Disadvantage: Reintervention rates are higher for EVAR than for OSR.
  • Open surgical repair (OSR)
    • Indications
    • Procedure: A laparotomy is performed and the dilated segment of the aorta is replaced with a tube graft or Y-prosthesis (bifurcated synthetic stent graft).

Preoperative assessment for elective repair [1]

  • Calculation of mortality risk: used to weigh operative risk against life expectancy for patients being considered for elective AAA repair
Elective AAA repair postoperative mortality risk score [13]
Parameter Points
Planned intervention EVAR 0
OSR (infrarenal) 2
OSR (suprarenal) 4
Aneurysm size (mm) < 65 0
≥ 65 2
Age ≤ 75 years 0
> 75 years 1
Sex Male 0
Female 1
Comorbidities History of MI or cerebrovascular disease 1
Serum creatinine (mg/dL) < 1.5 0
≥ 1.5 2


  • 0–4 points: low risk
  • 5–7 points: medium risk
  • 8–10 points: high risk
  • 11–14 points: prohibitively high risk

Perioperative care for AAA repair

Surveillance after repair [1][7]

Postoperative surveillance following EVAR is important because it can help to detect possible endoleaks, sac growth, device migration, and device failure. Because of the risk of an anastomotic aneurysm or aneurysmal dilation in the visceral aorta or iliac arteries, regular follow-up is recommended after OSR.

Conservative treatment: AAA surveillance without repair

  • Small (< 5.5 cm), asymptomatic AAA can typically be observed with interval surveillance ultrasound. [15]
    • To identify the expansion rate and thus decrease the risk of rupture
    • Frequency depends on the size of the aneurysm.
Follow-up frequency for AAA surveillance [1]
Maximum diameter of the abdominal aorta Recommended follow-up interval
2.5–2.9 cm
3–3.9 cm
4–4.9 cm
5.0–5.4 cm

Regular monitoring is essential because aneurysm size and expansion rate are strong predictors for the risk of rupture.

Abdominal aortic aneurysm rupturetoggle arrow icon

Risk factors

Clinical features

Diagnostics [1][12][16]

The optimal diagnostic approach depends on patient stability, available resources, and clinical suspicion. Follow local protocols if available.

  • Unstable patients: The diagnosis is clinical; refer directly for operative treatment. [1][12]
    • Consider POCUS to rapidly confirm the presence of an AAA.
    • Do not use POCUS to exclude a ruptured AAA if there is high clinical suspicion.
  • Stable patients (controversial) ; [1][12][16][17]
    • Consider imaging (in consultation with a vascular surgeon) provided it does not delay definitive management, for the following reasons:
      • To evaluate for alternate etiologies if the diagnosis is uncertain [1]
      • Anatomic assessment (e.g., with a thoracoabdominal CTA) to determine candidacy for EVAR and guide operative planning. [12]
    • Closely monitor patients clinically during transfer outside of critical care areas for imaging.

Imaging modalities

  • CTA thorax, abdomen, and pelvis
    • Study of choice if imaging can be performed without delaying operative repair [12][17]
      • Higher detection rates for contained rupture and retroperitoneal bleeds than ultrasound
      • Allows surgeons to determine if a patient is suitable for EVAR
    • Characteristic findings
  • POCUS: In an unstable patient, assume that a visible AAA on POCUS is a ruptured AAA until proven otherwise.

Additional studies

A ruptured AAA can mimic an acute MI if blood loss impairs coronary perfusion, causing chest pain and ischemic ECG changes. Screen for an AAA in patients with cardiac chest pain and additional epigastric or back pain.

Treatment [1][12]

The main goal of treatment is operative repair by a vascular surgeon without delay.

Avoid elective intubation, as it may precipitate cardiovascular collapse. [1]

Refer all patients with a suspected ruptured AAA for immediate operative evaluation.


Disposition [1]

  • Consult vascular surgery as soon as a ruptured AAA is suspected.
  • Transfer the patient to the nearest regional center with suitable facilities if a vascular surgeon is not available.
  • Consider transfer to a regional center if the available in-hospital vascular surgery service manages a low number of ruptured AAAs annually and transfer can be achieved within 30 minutes. [12]

Interfacility transfer

  • Criteria
    • Appropriate expertise and equipment are not available at the referring hospital.
    • The patient is suitable for and willing to undergo surgical repair.
    • The case has been discussed and accepted by the vascular surgery team at the receiving hospital.
    • The patient is not currently in cardiac arrest.
  • Preparation prior to departure
    • Establish IV access.
    • Ensure BP is in the target range (i.e., SBP 70–90 mm Hg).
    • Organize transfer of any imaging.
    • Establish monitoring for continuous assessment of vital signs during transport.
    • Conduct a telephone handover between physicians at the referring and receiving hospitals.

If patients require a transfer, it should be organized as swiftly as possible, with transfer times ideally under 30 minutes!

Complicationstoggle arrow icon

We list the most important complications. The selection is not exhaustive.

Acute management checklist for abdominal aortic aneurysmtoggle arrow icon

Ruptured abdominal aortic aneurysm

Symptomatic abdominal aortic aneurysm

Preventiontoggle arrow icon

Primary prevention [1]

Screening for AAA [1][2]

  • Indications
    • Men aged 65–75 years with a history of smoking (ever smokers) [1][2]
    • Consider screening:
  • Modality: abdominal ultrasound [1][2][6]
  • Frequency
    • One-time screening is recommended. [2]
    • Consider rescreening after 10 years if the aortic diameter was between 2.5 cm and 3 cm at the initial assessment. [1]

AAA screening is not recommended for women who have never smoked and have no family history of AAA. [2]

Men aged 65-75 with a history of smoking should be screened with a one-time abdominal ultrasound.

Referencestoggle arrow icon

  1. Moreno DH, Cacione DG, Baptista-Silva JC. Controlled hypotension versus normotensive resuscitation strategy for people with ruptured abdominal aortic aneurysm. Cochrane Database of Systematic Reviews. 2018.doi: 10.1002/14651858.cd011664.pub3 . | Open in Read by QxMD
  2. Chaikof EL, Dalman RL, Eskandari MK, et al. The Society for Vascular Surgery practice guidelines on the care of patients with an abdominal aortic aneurysm. Journal of Vascular Surgery. 2018; 67 (1): p.2-77.e2.doi: 10.1016/j.jvs.2017.10.044 . | Open in Read by QxMD
  3. Graciaa DS, Mosunjac MB, Workowski KA, Kempker RR. Asymptomatic Cardiovascular Syphilis With Aortic Regurgitation Requiring Surgical Repair in an HIV-Infected Patient. Open Forum Infect Dis. 2017; 4 (4).doi: 10.1093/ofid/ofx198 . | Open in Read by QxMD
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