Open AAA repair

• Patients who cannot undergo EVAR
  • Unfavourable anatomy for EVAR
    • No aortic neck/hostile aortic neck (main indication)
    • Proximal aortic necks that are short (<2cm), angled, trapezoidal, have a high burden of thrombus, or are heavily calcified can compromise seal
    • Iliac artery occlusive disease (especially chronic total occlusion) can mean EVAR Is hard
    • Concomitant CIA or EIA aneurysms (might still be able to do EVAR)
    • Horseshoe kidney
    • Where IMA patency needs to be preserved
  • Coexisting disease processes
• Emergency situations and endovascular unavailable
• Younger patients (EVAR durability is questionable)
• Patients with complex aortic neck anatomy (pararenal/suprarenal aneurysms)
• Conversion of EVAR
  • Failure of EVAR due to migration or recalcitrant endoleak that is unable to be resolved by endovascular means
  • Tends to be a much more complex operation than de novo AAA repair
  • Don't have to completely remove the previous EVAR graft unless it's infected
• Infection of native aorta or previous repair
  • Can't be done as open unless in certain situations

• Mortality rates with pararenal/ruprarenal AAA repair approach 5-10%
  • Infrarenal repair <5%

• Import external scans
• Confirm intended proximal clamp zone and warn aesthetist
• Confirm required aortic graft stock is in the hospital
• Document lower limb pulses and neurologic status
• Crossmatch 4 units
• Book ICU bed
• Book cell saver

• Extent of resection
• Location of cross-clamp application
• Qualitative assessment of aorta
• Evaluation of visceral vessel topography and patency
  • IMA preservation may be indicated if there is significant SMA disease. Can be done by either re-implanting into graft, or from a sidearm attached to the graft
• Identification of aneurysmal or occlusive iliac disease
• Need for concomitant renovisceral reconstructions

Patient preparation

• CARP trial - only patients with left main coronary artery disease, EF<20% and valvular disease should have that fixed prior to AAA.
• Cell saver

• Transabdominal approach favoured by most, through midline laparotomy
  • Better in emergency - quicker and easier
  • Good access to infra-renal AAA, but more difficult to expose visceral aorta
  • Better access to iliacs and right renal artery this way

Setup

• Supine with arms out
• Prep from nipples to knees

Approach

• Midline laparotomy
• Omentum and transverse colon brought cephalad
• Root of mesentery and small bowel retracted to right and maintained with retractor like Omnitract
• Divide ligament of Treitz and retroperitoneum tissues over aneursym itself
  • Avoid injury to IMV, but can be ligated if necessary
  • Track the right of the aorta to avoid injury to IMA, sigmoid mesentery and autonomic nervous plexus at the bifurcation
• If the aneurysm itself is covered by left renal vein, may need to ligate the branches to retract it superiorly

Supracoeliac clamping

• Most useful in setting of ruptured AAA or juxtarenal AAA
• Requires specific steps
• Consider renal preservation therapy
• Aim clamp time <30mins

Aortic repair

• Aortic sac opened longitudinally, and mural thrombus and debris are evacuated with care
• Reconstruction with appropriate Dacron or polytetrafluoroethylene (PTFE) tube grafts
• Cover graft with aortic sac and omentum to reduce migration

Closing

• Careful haemostasis - look at intercostals and lumbar vessels

• Check distal perfusion in recovery
• SCDS and enoxaparin, no TEDS
• Monitor fluid balance carefully
• NPO until any ileus resolved
• Neurovasc obs
• Antibiotics as per surgeon

• Wound review 2-6 weeks
• Aortoiliac USS at 6 months with clinic review
• Surveillance imaging every five years, or more often in clinical concern
• Check popliteals and thoracic aorta
• Remind family members to be screened for AAA
• Long term risk factor management with GP
• Repeat duplex 2-5 years post-op for progressive suprarenal or iliac aneurysm. GP can arrange.

• Early
  • Cardiac
    • Up to 10%
    • Risk factors:
      • Recent MI, old age, diabetes, poor functional status, arrhythmia, or CCF
    • Ensure patients are on aspirin, statin, beta blockers (aim HR< 60, BP <100
  • Pulmonary
    • Periop smoking cessation, optimal bronchodilator therapy, chest physio
    • Delayed extubation if more complex repair involving higher proximal aortic control
    • 17% get pneumonia
  • Renal
    • AKI rate is 10%-20%
    • Consider failed renal artery reconstruction or cholesterol embolization
    • Close attention to volume status
  • Colonic ischaemia
    • 0.2-6%
      • 4% for tube grafts
      • 2.7% for aorto-iliac grafts
      • 22% for an aortobifemoral graft
    • Operative risk factors:
      • Ligation of IMA
      • Failure to revascularise hypogastric arteries
    • Patient factors:
      • Pre-existing iliofemoral occlusive disease
      • Previous colonic resection
    • Signs:
      • Early post-op diarrhoea
      • Melaena
      • Haematochaezia
    • Investigation
      • Flex sig/colonoscopy
      • CT
    • Management
      • Aggressively resuscitatied
      • Broad-spectrum Abx
      • Partial-thickness ischaemia/stable patient: conservative. Mostly doesn't progress to full-thickness necrosis, but still can.
      • Full-thickness ischaemia/peritonitic/unstable: urgent laparotomy and bowel resection. Mortality 55%. Thorough assessment of IMA - if vigorous back-bleeding, probably ok.
  • Lower extremity ischaemia
    • Operative factors:
      • Anastomotic complications
      • Clamp injury
      • Acute thrombosis
      • Acute embolic disease
    • Management:
      • Treat the cause
      • All the above causes need intervention
  • Spinal cord ischaemia
    • Extremely rare
    • Extent of proximal coverage of aorta is the biggest risk factor
    • CSF drainage and pelvic revascularisation are main treatments
  • Venous thrombosis
    • Clinically rare due to systemic anticoagulation