Moore Chapter: Acute Arterial and Graft Occlusion
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Transcript of Moore Chapter: Acute Arterial and Graft Occlusion
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Acute Arterial and Graft Occlusion
January 31, 2013
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Pathophysiology of Ischemia
Progressive depletion of high-energy substrate from lack of oxygen delivery
Conversion to anaerobic metabolism The rate of metabolism allows for different
consequences depending on duration of ischemia for a particular organ/tissue Heart/Brain – Maximally extract oxygen
Increase in oxygen demand is met by increase in blood flow
Kidney/Skeletal Muscle – Do not maximally extract oxygen
Increase in oxygen demand met by greater tissue extraction of oxygen
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Skeletal Muscle
Tolerant of Ischemia Slow resting metabolic rate Glycogen stores High-energy phosphate bonds (creatine
phosphate) Ability to function by anaerobic glycolysis
Measurement of contractile function better predictor of ischemic injury than time
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Cellular Response to Ischemia
Maintenance of Cellular Function Use of ATP stores Anaerobic glycolysis Use of energy stores (creatine) ATP metabolized to ADP and AMP
Failure to Maintain Transmembrane Gradients
Cell Membrane CompromisedNet Cellular Calcium Influx
Duration of
Ischemia
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Reperfusion Injury
Catabolism of adenine nucelotides
and accumulation of hypoxanthine
Reintroduction of Oxygen
Proteolytic conversion of xanthine
dehydrogenase to xanthine oxidase
Production of Superoxide Radicals
+ +
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Pathophysiology of Reperfusion Injury
Upregulation of hypoxia-inducible factor (HIF-1) and vascular endothelial growth factor (VEGF) Increased endothelial cell permeability
Tissue edema Macromolecule extravasation Compartment HTN
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Pathophysiology of Reperfusion Injury
“No-Reflow” Phenomenon Prevents nutrient delivery despite restored blood flow Prolongs ischemic injury Mechanism of injury
Progressive microcirculatory obstruction• Leukocyte adhesion to venules (**Theoretical)• Leukocyte extravasation (**Theoretical)
Endothelial swelling Studies have shown injury due to macromolecular
leakage and tissue edema and not leukocyte-capillary plugging
Role of leukocyte is uncertain
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Pathophysiology of Reperfusion Injury
Changes in vasomotor tone and responsiveness Due to reduction in nitric oxide (NO) levels from
ischemia Administration of arginine increases
accumulation of NO Decreases superoxide production Increases smooth muscle relaxation
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Pathophysiology of Reperfusion Injury
Release of cytokines cause profound affect on hemodynamics and remote organs (ie. ALI) TNFα, IL-1β, TXA, LKT
Myonephropathic-metabolic syndrome Similar to effects from a crush-type injury Release of acidic blood into systemic circulation
causing metabolic acidosis Hyperkalemia Myoglobinuria > ARF
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Etiology of Acute Arterial Occlusion
EmbolismThrombosisTraumaOutflow Venous OcclusionLow-Flow States
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Embolism
Few collateral vessels to the affected bed causing severe symptoms
Lodges at vessel bifurcation LE>UE
Causes Cardiac
Myocardial Infarction - MCC• Dyskinetic heart serves as reservoir of stagnant blood and thrombus
formation Rheumatic Disease Prosthetic Valves Atrial Myxomas Endocarditis
Paradoxical Embolus – DVT with PFO Aneurysms Atherosclerotic Plaque
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Thrombosis
Atherosclerosis SFA at adductor canal
Arterial enlargement from atheroma is blunted Intimal lipid deposition with disruption
Macrophages, matrix metalloproteinases
Low-Flow States Associated with concomitant intimal disease
Hypercoagulable States HITT** Malignancy
Chemotherapy (may aggravate process)
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Trauma
Penetrating Direct vessel injury Indirect injury
Missile emboli Proximity
• High-velocity missiles with intimal disruption of adjacent artery
Blunt Intimal flap Spasm Suprocondylar fracture of humerus
Brachial artery injury Distal femur fracture or posterior knee dislocation
Popliteal injury Iatrogenic
Percutaneous endovascular techniques Medical devices Arterial line insertion
Allen test to document integrity of palmar arch External compression
Tourniquet or cast application Drug Administration
Drug toxicity Drug microembolization
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Outflow Venous Occlusion
Compartment Syndrome Following revascularization procedures
Increased compartment pressures can impede venous outflow leading to restriction of arterial inflow
Venous Thrombosis (rare) > Phlegmasia
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Low-Flow States
Shock Cardiogenic Hypovolemic
Exacerbated by vasoactive drugs
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Vascular Graft Failure
Mechanisms Same processes discussed previously Infection should not be overlooked
Pseudomonas and Salmonella
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Autogenous Graft Failure
Early Failure Graft Defect
Prior superficial phlebitis Technical Error
Harvest injury• Aggressive handling• Graft distention
External Compression Twisting or Kinking
Residual AVF (in situ grafts) Edema more likely than failure
Inadequate Valve Lysis (in situ or non-reversed grafts) Presence of conduit stenosis
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Autogenous Graft Failure
Late Failure Intimal Hyperplasia
Can affect proximal or distal anastomosis Aneurysmal dilatation
Thrombosis or distal embolization
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Prosthetic Graft Failure
Stenoses External compression Twisting or kinking during implantation
Increasing frequency from EVAR
Progression of distal diseaseInfectionHypercoagulable State
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Clinical Manifestations
Acute Arterial Occlusion Severity
Level and Severity of Obstruction Collateral Circulation
• Concomitant arterial occlusive disease History
Embolic Phenomenon – no history of claudication or prior vascular reconstruction
Physical Examination Comparison to contralateral extremity “Five Ps”
• Pain MCC complaint
• Pallor Waxy appearance replaced by mottling and vasodilatation with stagnant
circulation Nonblanching area represents gangrene
• Paresthesia• Paralysis
Proprioception and light touch lost first• Pulselessness
Occlusion proximal one joint proximal to ischemic manifestations
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Clinical Manifestations
Vascular Graft Occlusion Usually determined by operative indication Progression of primary disease more likely to present with limb-
threatening ischemia Graft-related causes present similar to original presentation Initial limb-threatened patients with failure present with
claudication Most do not require intervention with conservative management
The failing graft Present with diminished pulses, recurrent symptoms, failure to heal
areas of tissue loss, or without symptoms• Duplex scanning
No sensitive cutoff velocities >45cm/sec have good long-term patency
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Initial Evaluation
Acute Arterial Occlusion Exclusion of MI Stabilization of hemodynamics History
No claudication or prior vascular reconstruction Prior embolic event Atrial fibrillation Thrombotic occlusions less likely to have severe symptoms or
transition zones Arteriography versus revascularization
Meniscus sign or multiple filling defects suggestive of embolus Location of occlusion Propagation of clot can cause difficulty
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Initial Evaluation
Vascular Graft Occlusion Presentation may influence urgency Disabling claudication or limb-threatening
ischemia indicate intervention Thrombolysis to identify cause of failure
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Treatment Goals
Limb salvageMethod determined by degree of ischemia
and relative/absolute contraindications
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Treatment
ThrombolysisOperative Management
Embolectomy Bypass Graft Thrombectomy Bypass Graft Revision or Replacement Fasciotomy Delayed Embolectomy
Nonoperative Management
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Thrombolysis
Advantages Avoidance of surgical morbidity Determination of etiology
Disadvantages Time
Delaying revascularization and increasing tissue loss May require additional operative intervention
Risk of Bleeding from Lytic Agents Technique
Ability to traverse thrombus Monitoring of fibrinogen levels
>100mg/dL associated with increased bleeding Agents
Retelplase, t-PA, urokinase Additional use of glycoprotein IIb/IIIa inhibitors for platelet inhibition
• RELAX trial – prospective study comparing reteplase to reteplase-abciximab combination
• No difference in efficacy or safety• Decreased rate of distal embolic events with combination drugs
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Thrombolysis
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Embolectomy
Historically Direct exposure of arterial segment Passage of suction catheters or rigid
instruments to remove clot 1963 – Introduction of Fogarty catheter
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Femoral Embolectomy
Vertical groin incision Exposure of CFA, SFA, PFA Longitudinal arteriotomy for disease
Patch angioplasty to prevent narrowing No. 4 Fogarty catheter
Insertion to 25cm Saline inflation while maintaining
traction Directing course of catheter
90% into peroneal Bending tip Over-the-wire technique with
fluoroscopy Palpation of distal artery
Assessing flow Inflow easily determined Presence of backbleeding unreliable Arteriography
Residual thrombus Repassage of catheter Distal exploraton Infusion of fibrinolytic agents
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Popliteal Embolectomy
Indicated with infrapopliteal embolism
Technique Infrageniculate incision
Access to tibial branches Cannulation of individual
tibial branches Exposure of tibio-peroneal
trunk Longitudinal arteriotomy
Permits visualization of origin of ATA
Patch closure No. 3 Fogarty catheter
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Aortic Embolectomy
Bilateral transfemoral approachSimultaneous passage of No. 5 or No. 6
Fogarty catheters Prevent spillage of thrombus to contralateral
sideFailure to establish inflow
Fem-fem bypass Transperitoneal exploration
Visceral embolization
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Bypass Graft Thrombectomy
Similar principles of Fogarty catheter embolectomy Special care taken not to overinflate balloon
Intimal disruption or tear in fibrotic segments of vein grafts Infrainguinal Prosthetic Grafts
Exposure of distal anastomosis Assessment of outflow system Most common site of intimal hyperplasia Closure with patch angioplasty May need extension of graft or replacement
Infrainguinal Vein Grafts Best for early failures or presence of hypercoagulable state Poor long-term results for late failures
Progression of proximal or distal disease Graftotomy difficult to repair due to fibrosis and thickening of graft
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Bypass Graft Revision
Identification of cause of failure Stenotic lesion in midportion of vein graft
Short (<5cm) – Balloon angioplasty Longer, multiple lesions – require patch angioplasty or
interposition graft replacement
Residual AV fistula treated with ligation Residual valve treated with patch angioplasty Anastomotic lesions treated with patch
angioplasty
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Fasciotomy
Compartment Pressure Normal – Zero Tissue perfusion is impaired at 20
mm Hg Flow significantly decreased
within 30 mm Hg of DBP Compartment Syndrome is Clinical
Diagnosis Tense muscle group Pain on passive motion Numbness of nerve distribution
Semiclosed Fasciotomies Used for Prophylaxis or Mild Cases
Open Fasciotomy Single incision – creation of skin
flaps Two incision Fibulectomy
Injury to peroneal neurovascular bundle is common
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Nonoperative Management
High-Dose Heparinization Selects patients with viable extremities for
elective revascularization Bolus 20K U, followed by infusion of 2-4K U/h 67% limb salvage, 7.5% mortality (Blaisdell)
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Complications
Recurrent EmbolizationRethrombosisArterial Injuries from Balloon CatheterMyonephropathic Metabolic Syndrome
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Recurrent Embolization
Incidence of 6-45%Long-term anticoagulation
Started immediately following initial surgery 9% vs 31% without anticoagulation
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Rethrombosis
Etiology Residual Thrombus Untreated Proximal Thrombus Inadequate Anticoagulation
Prompt Re-exploration Thrombetomized or revised grafts may need
new graft
Anticoagulation
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Injury from Balloon Catheter
Intimal Hyperplasia Delayed
Perforation Compartment Syndrome Pseudoaneurysm AVF
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Results of Therapy
Acute Arterial Occlusion 85-95% limb salvage 10-15% mortality Atherosclerosis negatively influences outcome
Vascular Graft Occlusion 50% 5 year salvage rate (all-comers)
Highest patency with autogenous graft replacement 85% patency for vein patch angioplasty 0% patency (3 years) replacement with prosthetic graft
Frequent follow-up for surveillance of graft
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Neonatal Aortic Thrombosis
Related to Catheter Use Clinical Manifestations
Variable presentation depending on affected artery HTN - Renal Proximal HTN (similar to coarctation) – Aorta LE Ischemia - Aorta
Treatment Treatment determined by clot burden Surgical thrombectomy, thrombolysis, anticoagulation,
supportive care