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Abdominal Aortic Aneurysms

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Abdominal Aortic Aneurysms Aurelia Thibonnier-Calero PGY-2 Vascular Surgery Conclusion At 6 years, Open repair and EVAR have similar rates of suvival EVAR has a ... – PowerPoint PPT presentation

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Title: Abdominal Aortic Aneurysms


1
Abdominal Aortic Aneurysms
  • Aurelia Thibonnier-Calero
  • PGY-2
  • Vascular Surgery

2
Types of Aneurysms
  • True vs. False (pseudoaneurysm)
  • True involves all 3 layers of the arterial wall
  • False presence of blood flow outside of normal
    layers of arterial wall. Wall of false aneurysm
    is compose of the compressed, surrounding
    tissues.

3
Types of Aneurysms
  • Etiology
  • Degenerative- complex process that involves some
    degree of calcification, atherosclerotic
    pathology as well as degeneration by MMPs.
  • Inflammatory- thick inflammatory wall with
    fibrotic process in retroperitoneum that can
    encase aorta as well as surrounding structures.
    Associated with other inflammatory conditions
    Takayasus, Giant cell arteritis, Polyarteritis
    nodosa, Behcets, Cogans.
  • Post-dissection- up to 20 of aneurysms are
    related to previous dissection. Overtime,
    develops into true aneurysm
  • Traumatic- false aneurysms
  • Developmental Anomalies- persistent sciatic
    arteries, aberrant right subclavian artery.
  • Infectious- Can be primary or secondary
    infections.
  • Congenital- Tuberous sclerosis, aortic
    coarctation, Marfans.

4
Crawford Aneurysm Type
5
Assessing the AAA patient
  • Normal - aorta 1-2.4cm iliac 0.6-1.2cm
  • Aneurysm - Aorta gt3cm iliac gt 2cm
  • RF for aneurysm
  • Older age, male gender, white race, positive
    family history, smoking, HTN, hypercholesterolemia
    , PVD, CAD.
  • Ultrasound
  • used to diagnose and monitor AAA until aneurysm
    approaches size at which repair considered.
  • Computed Tomography
  • used in preop assessment of AAA.

6
Ruptured AAA
  • No significant overall change in mortality with
    open repair from 1991-2006
  • Overall mortality for ruptured AAA 90
  • Mortality rate for patients who arrive at
    hosptial alive 40-70
  • High postop mortality rate due to MI, renal
    failure, and multi-organ failure
  • Ischemia-reperfusion injury, hemorrhagic shock,
    lower torso ischemia
  • rEVAR significantly reduces mortality of ruptured
    AAA patients (31 vs 50)

7
Screening for AAA
  • US Preventive Services Task Force
  • Men 65-75 yo who have ever smoked
  • No for or against men 65-75yo who have never
    smoked
  • Does not recommend screening for women
  • Society of Vascular Surgery, Medicare Screening
  • Men who have smoked at least 100 cigarettes
    during their life
  • men and women with a family history of AAA
  • Only screen patients who are candidates for
    repair.

8
Choosing between Surgery Observation
  • Risk for AAA rupture without surgery
  • Operative risk of repair
  • Patients life expectancy
  • Personal preferance of patient

9
1. Risk of Rupture
  • Size matters
  • Aneurysm gt 5cm 6-16 and gt 7cm 33 annual rupture
    rate
  • Wall stress analysis
  • Saccular aneurysm have higher rate of rupture
  • HTN, COPD, active smoking are independent
    predictors of rupture
  • () family hx tend to rupture
  • Expansion rate

10
2. Operative Risk of Repair
  • Mortality after
  • elective open AAA 5
  • EVAR 1
  • 6 independent RFs for mortality Open repair
  • Creatinine gt 1.8, CHF, EKG detected ischemia,
    Pulmonary dysfunction, older age, female gender.
  • Cardiac, pulmonary, renal, and GI risks with each
    proceudre.

11
3. Patients Life Expectancy
  • Very difficult to assess due to patients
    co-morbidities
  • Typical 60yo surviving AAA repair has 13year
    life-expectacy, 70yo has 10year life-expectancy,
    and 80 yo has 6 year life-expectancy.

12
4. Personal Preference of Patient
  • Fear of AAA vs. Fear of surgery
  • Anecdotal experiences of friends and family
  • Procedures provided in community by
    interventional specialists and surgeons.

13
Medical Management of AAA
  • Smoking Cessation- Single most important
    modifiable risk factor
  • Exercise Therapy- Evidence suggests may benefit
    small aneurysms
  • Beta Blockers- May decrease the rate of
    expansion? Important cardiovascular effects thus
    use advocated.
  • ACE inhibitors- Evidence is mixed, however,
    implicated in less aneurysm rupture.
  • Doxycycline
  • Antibiotic activiety against chlamydia species
  • Suppresses expression of MMP
  • Statins - associated with reduced aneurysm
    expansion rates. Decreases MMP-9 in aneurysm
    wall.

14
EVAR vs. OPEN
  • EVAR-1 and DREAM Trials
  • Randomized AAA gt 5.5 cm to EVAR vs. open repair
  • Lower 30-day mortality for EVAR (1.6 EVAR vs.
    4.6 open)
  • Peripop mortality and severe complications 4.7
    EVAR 9.8 open repair (DREAM)
  • Similar all-cause mortality at 2 years
  • Higher rate of secondary interventions in EVAR
    group
  • Total cost of Tx 4 years of f/u is
    significantly increased for EVAR.

15
Open Repair
  • Transabdominal Approach
  • Previous retroperitoneal surgery
  • Ruptured AAA
  • Exposure of mid/distal portions of visceral
    vessels or R renal artery
  • R internal or external iliac artery
  • Co-existant abdominal pathology
  • Left-sided vena cava
  • Retroperitoneal Approach
  • Mult. Previous intraperitoneal procedures
  • Abd wall stoma, ectopic/ anomaly of kidney
  • Inflammatory aneurysm
  • Proximal aortic access, endarterectomy of
    viceral/renal arteries needed
  • Obese patients
  • Fewer GI complications

16
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17
Open Repair-Complications
  • Cardiac
  • Pulmonary
  • Renal
  • Lower Extremity Ischemia
  • Spinal Cord Ischemia
  • Incisional Hernia
  • 14.2 ventral hernia, 9.7 SBO
  • Graft Infection

18
Open Repair ComplicationsColon Ischemia
  • Collaterals from SMA, IMA, internal iliac artery,
    and profunda femoris supply sigmoid colon
  • Mortality 40-65, full-thickness necrosis 80-100
  • Occurs in 0.6-3 of elective and 7-27 of
    ruptured AAA (much more common endoscopically
    than clinically)
  • Si/Sx persistent acidosis shock, increased
    WBCs and lactate levels, fluid sequestration,
    bloody bowel movements.
  • TX
  • Ischemia limited to mucosa/submucosa- npo, IVF,
    IV abx
  • Transmural ischemia- bowel resection, fecal
    diversion, creation of ostomy, washout of
    abdomen, IV abx.

19
Open Repair- Concomitant Pathology
  • Treat the most life-threatening process first
  • Avoid simultaneous operations that increase the
    risk for prosthetic graft infection
  • If secondary procedure can be staged without
    increased risk - do aneurysm repair first
  • Clean procedures (ienephrectomy, oophrectomy)
    can be performed simultaneously with open AAA
    repair
  • GI procedures should not occur at same time as
    open repair
  • Abort surgery if metastatic disease or abscesses
    which increase risk for graft infection
    discovered.

20
Inflammatory AAA
  • Perianeurysmal fibrosis inflammation
  • 5 of AAA
  • Treatment of AAA resolves the periaortic
    inflammation in 53 (open EVAR)
  • Duodenum, left renal vein, and ureters often
    involved in inflammation.
  • PreOp ureteral stent placement recommended.

21
Infected AAA
  • 0.65 of AAA
  • Can be primary or secondary infection
  • Potential causes of infection
  • Continguous spread of local infxn, septic
    embolization from distal site, bacteremia.
  • In the past syphilis and steptococcal species was
    common
  • Now staph and salmonella.
  • With HIV and wide-spread abx use- can be caused
    by any bacterial or fungal infection
  • Dx fever, abdominal/back pain, high ESR,
    bacteremia.

22
EVAR
23
Types of Endoleak
24
Types of Endoleak
  • Type I
  • Usually identified and treated _at_ time of stent
    graft implantation
  • Must be treated if found on post-op imaging
  • Associated with high likelihood of AAA rupture
  • Bridge with short aortic cuff, Palmaz stent
  • Type II
  • 10-20 of post-op CT scan show Type II leak
  • 80 resolve spontaneously at 6 months
  • Indication to treat persistent leak, aneurysm
    growth
  • Transcatheter tx (coil embolization)
  • Type III
  • 0-1.5 incidence
  • Strong predictor of rupture
  • Tx re-establish continuity by additional
    component to bridge gap or cover hole.
  • Type IV
  • Majority resolve within one month of stent graft
    implantation

25
EVAR ComplicationsEuroSTAR Registry
  • Annual Incidence of Complication (per 1,000
    patients)
  • From Van Marrewijk CJ, Leurs LJ, Valabhaneni SR,
    et al. Risk-adjusted outcome analysis of
    endovascular abdominal aortic aneurysm repair. J
    Endovasc Ther. 2005 12 417-429

26
EVAR complications
  • Stent-graft infection
  • Net infection rate of 0.43
  • Pelvic ischemia
  • Internal iliac occlusion during EVAR
  • Si/sx buttock claudication (most common 16-50),
    buttock necrosis, colon necrosis, spinal
    ischemia, lumbosacral plexus ischemia, ED
    (15-17).
  • Ischemic colitis lt 2

27
Long-Term Outcome of Open or Endovascular Repair
of Abdominal Aortic Aneurysm
  • De Bruin et al.
  • DREAM study group
  • The New England Journal of Medicine May 2010

28
Introduction
  • Previous studies have shown initial survival
    benefit in patients undergoing EVAR vs. Open
    repair of AAA
  • Concern that EVAR is not as durable as AAA and is
    associated with greater risk of rupture and
    secondary interventions.
  • Goal Analyze results of Dutch Randomized
    Endovascular Aneurysm Repair (DREAM) study to
    provide long-term data comparing open repair vs.
    EVAR

29
Methods
  • Multicenter, randomized, controlled trial
    comparing open repair vs. EVAR in 351 patients
  • AAA gt 5cm
  • Patients had to be candidates for both techniques
    of repair
  • Exclusion Criteria
  • Ruptured or inflammatory aneurysms, anatomical
    variations, connective-tissue diseases, hx of
    organ transplant or life-expectancy lt 2 years.
  • F/U visits at 30 days, 6/12/18/24months after
    procedure
  • After first 2 years, pts received questionnaires
    every 6 months.

30
Methods
  • EVAR patient received CT scan annually
  • All patients were called at 5 years and invited
    for f/u CT scan.
  • Data acquisition stopped Feb 2009
  • Primary outcome was rate of death from any cause
    reintervention
  • Survival calculated on intention-to-treat basis.

31
Results
  • November 2000-December 2003
  • 178 patients Open repair vs. 173 EVAR
  • Mean age 7yo, 91 male, 43.9 concomittant
    cardiac disease.
  • 6 pts did not undergo aneurysm repair
  • 4 declined tx, 1 died from rupture, 1 died from
    PNA.
  • 8 in hosptial deaths open vs. 2 EVAR
  • Mean f/u 6.4 years
  • 25 of open patient underwent CT scan at 5 years,
    100 of EVAR

32
Results
  • _at_ 6 years post-op
  • Survival rate 69.9 open, 68.9 EVAR
  • Freedom from reintervention 81.9 open vs. 70.4
    EVAR
  • Analysis of causes of death
  • EVAR- mostly miscellaneous rather than CV
  • Reintervention
  • Open repair- majority done for hernia repair
  • EVAR- endoleak, endograft migration

33
Discussion
  • No significant difference between endovascular
    repair and open repair in rate of overall
    survival at a median of 6.4 years.
  • Previously DREAM and EVAR-1 trials demonstrated
    early (2years) survival advantage for EVAR group.
  • Significantly higher rate of reinterventions in
    EVAR group than open group
  • Study limited by difference in f/u between the
    open and endovascular group.

34
Conclusion
  • At 6 years, Open repair and EVAR have similar
    rates of suvival
  • EVAR has a greater rate of reintervention

35
Total Percutaneous Access for Endovascular Aortic
Aneurysm Repair (Preclose technique)
  • Lee WA, Brown MP, Nelson PR, Huber TS.
  • Journal of Vascular Surgery 2007 June
    45(6)1095-101
  • University of Florida, Gainesville

36
  • large single institutional experience with the
    method and outcomes of a variation of the
    Preclose technique using the 6F Perclose Proglide
    (Abbott Vascular) device during endovascular
    aortic repairs.
  • Retrospective review of patient who underwent
    EVAR/TEVAR from Oct 03-Aug06
  • 183 perc femoral access with 12-24F Perclose
    technique with Proglide device compared to 154
    patients with open surgical exposure of femoral
    arteries
  • Anesthia used for Preclose vs. open general, 49
    vs 55 regional, 45 vs 44 and local, 5 vs 1
    (P .10).
  • Percutaneous group broken down into group of
    smaller 12-16F and group of larger 18-24F
    sheaths.
  • Data points perioperative outcomes, procedure
    times, operating room usage costs, and technical
    success (in-hospital or 30-day).
  • F/U CT scan at 1 month post-op
  • The list price for each Perclose Proglide device
    is (US) 295.
  • Dilator set 170.44
  • cost of the operating room is (US) 3935 for the
    first 60 minutes (not prorated for shorter
    periods) and then 50/min thereafter.

37
Results
  • 137 EVAR, 118 TEVAR, 7 iliac repairs performed
  • 381 femoral arteries accessed with 12-24F sheaths
  • 279 were with 559 Proglide devices using Preclose
    technique in 183 patients
  • 4 femoral artereries required 1 device (1.4)
    -all 12F sheaths
  • 270 arteries (96.8) required 2 devices
  • 5 arteries (1.8) required 3 devices
  • 63 of sheaths were gt 18F
  • Overall technical success of Preclose technique
    was 94.3
  • 99 for smaller sheaths and 91 for larger
    sheaths.

38
Results
  • 16 complications
  • 13 open repairs of femoral arteries
  • 2 emergent placement of covered stent for severe
    retroperitoneal hemorrhage.
  • 1 necrotizing arteritis with mycotic
    pseudoaneurysm requiring replacement of femoral
    artery with autogenous femoral vein.
  • All cause mortality 2.2
  • Access mortality 0

39
Results
  • Surgical Group- 154 endovascular repairs
  • 108 EVAR and 46 TEVAR
  • 258 femoral exposures
  • Technical success rate 93.8
  • 16 complications
  • 10 endarterectomies with patch angioplasty
  • 3 wound infections
  • 2 infected seromas requiring ID
  • 1 severe arteritis requiring debridement and
    replacement of CFA with autogenous femoral vein.
  • All cause mortality 1.3
  • 0 access-related mortality

40
Results
  • Significantly lower OR time for Preclose group
  • EVAR 115 vs 128 min
  • TEVAR 80 vs 112 min
  • Cost OR Proglide vs. OR Surgery
  • EVAR 7881 vs 7351
  • TEVAR 5679 vs 6556

41
Discussion
  • Percutaneous Access
  • Shorter procedure time
  • Fewer wound complications
  • Increased patient comfort
  • Limited by size of delivery system.
  • In this study
  • Smaller sheaths had higher technical success
  • All complications occurred intra-op
  • No access-related mortality
  • Accessing anterior aspect of mid-common femoral
    artery is crucial in preventing hemorrhagic
    complications.

42
Discussion
  • Contraindications to Preclose
  • Coagulopathy is contra-indication to use of this
    device due to inability to control needle-hole
    bleeding
  • Severe calcifications
  • Groin scarring
  • Obesity
  • Previous use of percutaneous closure devices.
  • High (suprainguinal ligament) femoral bifurcation
  • Need for frequent introducer sheath removals and
    insertions
  • Proximal iliac occlusive disease
  • Small iliofemoral arteries relative to profile of
    device being used

43
Conclusion
  • Prospective, randomized study is needed to truly
    validate this technique
  • Percutaneous EVAR is safe and effective
  • Long-term data is needed to evaluate effect on
    femoral artery.

44
  • The End
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