Aaa repair

Surgical approach

Two main strategies: Open AAA repair vs EVAR (endovascular aneurysm repair)
- Choice depends on anatomy (neck length/angulation, iliac access), physiology, urgency, local expertise
Open repair (elective/urgent/ruptured): midline laparotomy or left retroperitoneal approach, aorta exposed, systemic heparin often given, aortic cross-clamp (usually infrarenal, may be suprarenal), aneurysm sac opened, thrombus evacuated, Dacron/PTFE graft (tube or bifurcated) sewn in, clamp released, haemostasis, sac closed over graft, abdomen closed (may be left open in rupture/ACS risk).
- Major physiological insults: clamp on/off, large blood loss, hypothermia, coagulopathy, ischaemia–reperfusion, abdominal compartment syndrome
EVAR: percutaneous or open femoral artery access, guidewires/catheters, stent-graft deployed under fluoroscopy, may need iliac extensions, completion angiography, closure devices, less physiological stress but contrast load and access complications.
- Complications: endoleak (I–V), limb ischaemia/embolisation, access site bleeding, renal injury, spinal cord ischaemia (rare, higher with extensive coverage), conversion to open

Anaesthetic management (headline)

Type of anaesthesia: GA for open repair, GA or regional/LA with sedation for EVAR (institution-dependent).
- Ruptured AAA: GA almost always, aim for rapid control of bleeding and physiology-guided resuscitation
Airway: ETT for open repair and most ruptures, EVAR may be ETT or spontaneous ventilation with airway support depending on plan and patient factors.
Duration: Open elective typically 3–6 h, ruptured variable, EVAR often 1.5–3 h.
Pain: Open repair very painful (laparotomy/retroperitoneal), EVAR mild–moderate (groin access, possible iliac manipulation).
Monitoring/lines: A-line before induction, large-bore IV x2, rapid infuser, central access often, urinary catheter, temperature, ABGs, consider cardiac output monitoring, cell salvage (open).
Key intra-op goals: maintain coronary/cerebral perfusion, anticipate clamp physiology, haemostatic resuscitation, normothermia, renal protection strategy, timely ICU/HDU handover.

Indications and definitions

AAA = permanent dilatation of abdominal aorta ≥ 3.0 cm (or &gt,50% normal diameter).
Repair generally considered when: diameter ≥5.5 cm (men), ≥5.0 cm (women, often earlier due to rupture risk), rapid expansion (&gt,0.5 cm/6 months), symptomatic aneurysm, saccular morphology, rupture/impending rupture.
Options: EVAR (lower early morbidity, needs surveillance) vs open repair (higher early risk, durable).

Preoperative assessment (elective)

High-risk vascular cohort: common comorbidities include IHD, heart failure, COPD, CKD, diabetes, smoking, frailty.
Cardiac: assess functional capacity, ECG, echo if murmur/HF/poor METs, consider stress testing if it will change management, optimise anti-anginals, beta-blocker continuation (avoid new high-dose initiation immediately pre-op).
Respiratory: COPD optimisation (bronchodilators, steroids if indicated), smoking cessation, treat infection, consider ABG if severe disease.
Renal: baseline creatinine/eGFR, avoid nephrotoxins, plan contrast mitigation for EVAR (hydration strategy, minimise contrast).
Haematology: FBC/coagulation, group &amp, save/crossmatch (often 6–10 units for open, local policy), iron deficiency correction if time.
Medication: continue statin, continue aspirin usually (surgeon-specific), manage dual antiplatelets/DOAC/warfarin with plan, ACEi/ARB often withheld on day to reduce refractory hypotension (local policy).
Consent/communication: ICU/HDU expectation, blood transfusion, epidural risks/benefits, potential postoperative ventilation/renal replacement therapy.

Preparation and monitoring

Monitoring: invasive arterial pressure (preferably pre-induction), 5-lead ECG with ST analysis, SpO2, capnography, temperature (core), urine output, serial ABG/lactate, glucose.
Vascular access: 2 large-bore cannulae (14–16G) + rapid infuser, central venous access often (drug delivery/vasopressors), consider large-bore sheath if anticipated massive haemorrhage.
Cardiac output monitoring: oesophageal Doppler, pulse contour, or TOE in selected cases (significant cardiac disease, rupture, unexplained instability).
Blood management: cell salvage (open), TXA per local major haemorrhage protocol, fibrinogen/cryoprecipitate guided by labs/viscoelastic testing if available.
Temperature: forced-air warming, fluid warmers, minimise exposure, hypothermia worsens coagulopathy and arrhythmias.

Anaesthetic technique

Induction: haemodynamically stable elective—balanced induction with vasopressor readiness, ruptured—haemodynamically fragile, titrated induction, consider ketamine/etomidate, early vasopressors, avoid precipitous drop in SVR.
Maintenance: volatile or TIVA, avoid tachycardia/ischaemia, lung-protective ventilation, consider higher FiO2 during major haemorrhage, maintain normocapnia.
Analgesia (open): multimodal + regional where appropriate. Options: thoracic epidural (T8–T10), spinal opioid, TAP/rectus sheath catheters, IV lidocaine infusion (local practice), PCA opioid if neuraxial unsuitable.
- Epidural benefits: improved analgesia, reduced respiratory complications, earlier mobilisation, risks: hypotension (esp. with clamp release/bleeding), epidural haematoma with anticoagulation, failure rate.
EVAR anaesthesia: GA (airway control, immobility) vs regional/LA + sedation (faster recovery, less haemodynamic depression). Must tolerate supine, contrast, potential conversion to open.

Physiology of aortic cross-clamping (open repair)

Clamp level matters: infrarenal (commonest) vs suprarenal/supraceliac (greater afterload, renal/visceral ischaemia).
On clamping: ↑SVR/afterload → ↑MAP, potential ↓CO (esp. poor LV), ↑myocardial O2 demand, redistribution of blood volume, possible proximal hypertension and myocardial ischaemia.
- Management: deepen anaesthesia, vasodilators (GTN), treat ischaemia (beta-blockade cautiously), optimise preload/contractility, avoid excessive hypertension.
Distal ischaemia during clamp: anaerobic metabolism in lower body → lactate, acidosis, hyperkalaemia, gut ischaemia risk, renal hypoperfusion (worse if suprarenal).
On unclamping: sudden ↓SVR and venous return + washout of metabolites → hypotension, acidosis, hyperkalaemia, arrhythmias, bleeding may worsen.
- Management: warn team, volume loading judiciously, reduce volatile, vasopressors ready (noradrenaline/phenylephrine/vasopressin), correct K+/Ca2+/pH, slow/stepwise release if possible.

Haemorrhage and transfusion strategy

Open repair: major blood loss from lumbar/iliac vessels, back-bleeding, coagulopathy, hypothermia, surgical field issues, rupture can be catastrophic.
Use a major haemorrhage protocol early if needed, aim for haemostatic resuscitation (RBC:FFP:platelets guided by local policy and labs/TEG/ROTEM).
Calcium: citrate toxicity causes hypocalcaemia → hypotension/coagulopathy, check ionised Ca and replace.
Cell salvage: useful in elective open AAA, consider contamination risk if bowel injury (relative).

Renal protection and metabolic issues

Risks: pre-existing CKD, suprarenal clamp, hypotension, embolisation, rhabdomyolysis (limb ischaemia), contrast nephropathy (EVAR).
Principles: maintain perfusion pressure/CO, avoid hypovolaemia, minimise nephrotoxins, monitor urine output and ABGs, treat acidosis/hyperkalaemia, consider bicarbonate only for severe acidaemia with instability (case-by-case).
Diuretics (mannitol/furosemide): not routine, may be used by some teams around suprarenal clamping but evidence mixed—prioritise haemodynamics.

Postoperative care

Destination: usually ICU/HDU after open repair, EVAR often HDU/ward if uncomplicated.
Key issues: ongoing bleeding, myocardial ischaemia/arrhythmias, renal dysfunction, respiratory failure/atelectasis, ileus, delirium, sepsis, limb ischaemia, graft occlusion, abdominal compartment syndrome (rupture/large transfusion).
Analgesia: epidural infusion (if used) with vasopressor support as needed, otherwise PCA + multimodal, early mobilisation and chest physiotherapy.
VTE prophylaxis: mechanical + pharmacological when safe, balance against neuraxial timing and bleeding risk.

Ruptured AAA (rAAA): specific considerations

Presentation: hypotension, abdominal/back pain, collapse, may be transiently stable if retroperitoneal tamponade.
Resuscitation: permissive hypotension until proximal control (e.g., target SBP ~70–90 mmHg or conscious with radial pulse, individualise—avoid in traumatic brain injury/critical coronary/cerebral ischaemia).
Avoid: aggressive crystalloid, hypertension that disrupts clot, delays to theatre, early balanced blood products and vasopressors as needed.
Induction: titrate to effect, have surgeon scrubbed/ready, vasopressors running, consider RSI with haemodynamic caution, anticipate immediate clamp after laparotomy.
Coagulopathy: common (shock, dilution, hypothermia), use MHP, warming, calcium, viscoelastic-guided therapy if available.

Test yourself…

Talk me through your anaesthetic plan for elective open AAA repair.

Structure: pre-op optimisation → monitoring/lines → induction/maintenance → clamp on/off management → blood/temperature → analgesia → postop destination.

Pre-op: assess IHD/HF/COPD/CKD, optimise meds, crossmatch, discuss epidural and ICU.
Monitoring/lines: A-line pre-induction, 2 large-bore IV, central line, temperature, urinary catheter, serial ABGs/lactate, consider CO monitoring/TOE if indicated.
Anaesthesia: GA with ETT, lung-protective ventilation, avoid tachycardia/ischaemia, vasopressors and vasodilators available.
Analgesia: thoracic epidural (if appropriate) + multimodal, otherwise PCA and abdominal wall blocks/catheters.
Clamp management: anticipate hypertension on clamp-on (treat with depth/GTN), anticipate hypotension on release (volume/vasopressors, correct acidosis/K+/Ca2+).
Blood/temperature: cell salvage, MHP readiness, warming, calcium replacement, viscoelastic-guided products if available.
Postop: ICU/HDU, monitor for bleeding, MI, AKI, respiratory failure, ileus, continue analgesia and VTE prophylaxis when safe.

What are the haemodynamic changes on aortic cross-clamping and unclamping, and how do you manage them?

Clamp level determines magnitude, infrarenal is less severe than supraceliac.

Clamp-on: ↑SVR/afterload → ↑MAP, may ↓CO, ↑myocardial O2 demand → ischaemia risk.
Management clamp-on: deepen anaesthesia, vasodilators (GTN), treat ischaemia, optimise preload/contractility, avoid extreme hypertension.
Clamp-off: ↓SVR + ↓venous return + metabolite washout (acidosis, hyperkalaemia) → hypotension/arrhythmias.
Management clamp-off: communicate, reduce anaesthetic depth, volume judiciously, vasopressors (noradrenaline/phenylephrine/vasopressin), correct K+/Ca2+/pH, consider staged release.

How would your management differ for ruptured AAA compared with elective repair?

Priorities: rapid haemorrhage control, permissive hypotension, haemostatic resuscitation, avoid iatrogenic collapse at induction.

Resuscitation: permissive hypotension until proximal control, early blood products, minimise crystalloid, warm patient.
Induction: titrated/haemodynamically stable technique (ketamine/etomidate options), vasopressors running, surgeon ready, anticipate immediate clamp.
Coagulopathy: activate MHP early, monitor Ca2+/temperature, use viscoelastic testing if available.
Postop: high likelihood ICU, ventilation, AKI, abdominal compartment syndrome, aggressive monitoring and organ support.

Discuss the pros and cons of epidural analgesia for open AAA repair.

Common FRCA viva theme: balance analgesic/respiratory benefits against haemodynamic and anticoagulation risks.

Pros: excellent dynamic analgesia, improved coughing/mobilisation, reduced pulmonary complications, opioid-sparing, may reduce ileus.
Cons: hypotension (sympathectomy) requiring vasopressors/fluids, potential masking of evolving hypovolaemia, failure/patchy block.
Safety: timing with anticoagulation/heparin, risk of epidural haematoma—follow ASRA/RA-UK guidance and local policy, document neuro obs plan.
Alternatives: TAP/rectus sheath catheters, spinal opioid, PCA, multimodal analgesia.

Compare EVAR with open AAA repair from an anaesthetic perspective.

Another frequent exam theme: physiological stress, monitoring, complications, postoperative course.

EVAR: less blood loss and stress response, often shorter stay, can be GA or regional/LA sedation, requires contrast and fluoroscopy, access complications/endoleaks.
Open: major laparotomy pain, cross-clamp physiology, higher transfusion/ICU needs, no contrast but higher early morbidity.
Monitoring: EVAR may still need A-line and good IV access, must be prepared for sudden conversion to open with massive haemorrhage.

You see ST depression and hypotension shortly after cross-clamp application. What are your differentials and immediate management?

Think supply–demand mismatch, LV failure, anaesthetic depth, bleeding, and mechanical issues.

Differentials: myocardial ischaemia (afterload rise), LV failure, hypovolaemia, arrhythmia, excessive anaesthetic/vasodilator, clamp position causing major afterload increase (supraceliac).
Immediate actions: confirm trace/artifact, treat hypotension (vasopressor/inotrope as appropriate), reduce afterload cautiously if hypertensive, optimise oxygenation/ventilation, correct anaemia, consider TOE, liaise with surgeon about clamp level and bleeding.

What metabolic derangements do you anticipate at unclamping and how do you prepare?

Washout phenomenon plus haemodynamic collapse risk.

Anticipate: acidosis, hyperkalaemia, hypocalcaemia (transfusion), lactate rise, hypotension, arrhythmias.
Prepare: ABG shortly before release, ensure adequate ventilation, calcium ready, vasopressors running, communicate staged release, treat K+ (insulin/dextrose, bicarbonate if severe, hyperventilation as temporising).

Outline a practical major haemorrhage strategy for open AAA repair.

FRCA expects a structured approach aligned with local MHP and physiology.

Call for help, activate MHP early, ensure rapid infuser/warmer, obtain large-bore access, send labs (FBC, coag, fibrinogen) and use TEG/ROTEM if available.
Transfuse balanced components per protocol, early fibrinogen replacement if low, platelets as indicated, consider TXA early (if within protocol).
Correct contributors: hypothermia, hypocalcaemia, acidosis, maintain perfusion with vasopressors as needed, minimise crystalloid.
Use cell salvage (elective open), document totals and handover to ICU.

How do you reduce the risk of postoperative renal failure in AAA surgery?

Focus on perfusion and avoiding secondary insults, pharmacological ‘renal protection’ is limited.

Maintain MAP/CO and avoid prolonged hypotension, optimise volume status, avoid nephrotoxins, monitor urine output and lactate/ABGs.
Minimise suprarenal clamp time, discuss with surgeon, consider TOE/CO monitoring in high-risk patients.
EVAR: minimise contrast volume, consider hydration strategy, monitor creatinine post-op.

What complications are you specifically looking for in the early postoperative period after open AAA repair?

Think: bleeding, heart, lungs, kidneys, gut, limbs, compartment syndromes, infection.

Haemorrhage/coagulopathy, myocardial infarction/arrhythmias, respiratory failure/atelectasis, AKI, ileus/mesenteric ischaemia, limb ischaemia/embolism, abdominal compartment syndrome, sepsis.
Monitoring: haemodynamics, lactate/base deficit, urine output, abdominal exam/pressures if concerned, limb perfusion, ECG/troponin as indicated.