EC – IC BYPASS INDICATIONS AND TECHNIQUES

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Presentation transcript:

EC – IC BYPASS INDICATIONS AND TECHNIQUES

History of revascularization Author (year) Event Kredel , 1942 EDAMS Woringer & Kunlin, 1963 CCA-ICA bypass with saphenous vein graft Donaghy & Yasargil, 1968 STA – MCA bypass Loughheed 1971 CCA- IC ICA bypass Kikuchini & Karasawa1973 EC-IC bypass for moyamoya Karasawa , 1977 Encephalomyosynangiosis for moyamoya Story , 1978 ICA-MCA bypass, saphenous vein graft Sundt , 1982 Saphenous vein graft for posterior circulation EC/IC bypass study group, 1985 No benefit of STA-MCA bypass in reducing ischemic events compared to best medical therapy COSS ,2010 Study stopped for futility

Revascularization Indirect : Direct Promote new capillary network formation Revascularization with time Flow augmentation , smaller volume of flow Recipient vessel size not important Ischemic brain unable to accommodate a higher flow Direct Vessel to vessel anastamosis Immediate revascularization Flow augmentation/ replacement Recipient vessel size > 1mm (ideally > 1.5 mm)

Indirect revascularization EMS (encephalomyosynangiosis) EDAS (encephaloduroarteriosynangiosis) EDAMS (encephaloduroarteriomyosynangiosis) Omental graft Multiple burr holes

Direct revascularization STA STA – MCA anastamosis Arterial / venous graft PETROUS ICA – SUPRACLINOID ICA CERVICAL ECA/ICA – MCA CERVICAL ECA/ICA – SUPRACLINOID ICA Bonnet graft (opposite STA – Saphenous graft- MCA )

Revascularization Decision about direct/ indirect Decide on donor vessel Decide on conduit Decide on recipient Technique of anastamosis

Revascularization Direct Indirect Immediate flow required (vessel sacrifice) The brain can handle the high flow rates Availability of acceptable recipient vessel Immediate flow not required (3- 4 months to mature) Collaterals may not develop in 40 – 50 % adults Mass effect of muscle (aphasia) Revascularized area dependent on craniotomy size and site (only local revascularization) No acceptable recipient

Donor vessel STA (superficial temporal artery) MMA (middle meningeal artery) ECA (external carotid artery) ICA (internal carotid artery) OA (occipital artery) VA (vertebral artery V3 segment)

Conduit Pedicled grafts Free arterial graft Free venous graft STA ≥ 1mm OA MMA Free arterial graft Radial ≥ 2.4mm Other arteries Free venous graft GSV ≥ 3mm J Neurosurg 102:116–131, 2005

Flow characteristics of grafts Low resistance circulation, vein grafts not a disadvantage Low flow vessels STA, OA, MMA < 50ml/min flow at time of anastamosis High flow grafts Radial artery 50-150 ml/min at anastamosis Saphenous vein graft 100-250 ml/min at anastamosis

Vein Vs arterial graft Arterial graft Venous graft Better suited to high pressure flow Short term patency rates are better (98% at 6 W) Length is a limitation No valves Lumen approximates that of recipient May not always be available (incomplete palmar arch) Recipient ≥ 2 mm Larger diameter, higher flow rates Lower short term patency rates (93% at 6 W) Length is not a limitation Almost always available Valves present Lumen larger than recipient Higher procedure related complications Children < 12 years Recipient ≥ 2.5 mm Neurosurgery 69:308–314, 2011

Graft flow characteristics High flow > 50 ml/min Low flow (< 50 ml/min) Proximal vessel sacrifice Flow replacement Large area to be revascularized No vessel sacrifice Flow augmentation Small area to be revascularized Brain can not handle high flows

Recipient vessel M1 tolerates temporary occlusion poorly (lenticulostriate perforators) Implant into a bifurcation Implant into a 2.5 mm vessel MCA If M1 segment short , MCA unsuitable recipient, use supraclinoid ICA if aneurysm infraclinoid If supraclinoid ICA used as recipient collateral from ACA essential (temp PCA occlusion required) Suturing started at the heel end

Anastomotic technique Hand sewn (commonest) Require proximal and distal clamping of the recipient Non occlusive anastamosis Expensive , learning curve, larger recipient vessel size, patency rates comparable, similar complication rates ELNA (Excimer Laser assisted Non occlusive Anastamosis) C-Port xA Distal Anastomosis System

STA – MCA bypass STA Parietal branch preferred (frontal has collaterals with ophthalmic ) Location of craniotomy Junction of the anterior 2/3 and posterior 1/3 of a line joining lateral canthus to ipsilateral tragus A line perpendicular to this Craniotomy 3-5 cm in diameter 6 cm above this line Anastomose to temporal M4 branches Avoid ischemia to frontal branches during occlusion Good collaterals with PCA More consistent good M4 branches Neurosurgery 61:ONS-74–ONS-78, 2007

Radial artery harvest Radial artery graft Allen’s test Expose at wrist between FCR and brachioradialis tendon Follow upwards between Pronator Teres and brachioradialis J Neurosurg 102:116–131, 2005

GSV harvest Expose at ankle 1 cm anterior and cranial to medial malleolus Follow upwards to medial aspect of leg Harvest appropriate length Can also be harvested in the thigh (drains into CFV 3 cm below inguinal ligament) J Neurosurg 102:116–131, 2005

Anastomosis Meticulous haemostasis (heparin administration) Distension of graft to prevent spasm Vein graft not reversed Intracranial anastomosis performed first Arterial graft retro/ preauricular route Venous graft retroauricular route Deliver graft without torsion

Hand sewn anastomosis Fish mouthing of graft end before anastamosis Teardrop arteriotomy of recipient Ensure no air in graft (back bleeding/ flushing) Verify flow through graft (Doppler/ angiography) Bone flap placed without compromising graft

Indications for bypass Cerebral ischemia Moyamoya disease Aneurysms Skull base tumors

Bypass after major vessel sacrifice Selective approach: only if test occlusion is positive 22% risk of TIA, infarcts Neurosurgery 35:351–363, 1994. TIA 10% ,stroke rate of 5% and mortality of 5% after ICA occlusion following test occlusion Neurosurgery 36:26–30, 1995 A high flow bypass if fails test occlusion, low flow if passes Spetzler RF . Comments Neurosurgery 62[SHC Suppl 3]:SHC1373–SHC1410, 2008 Universal approach: irrespective of test occlusion results Neurosurgery 62[SHC Suppl 3]:SHC1373–SHC1410, 2008

Moyamoya disease Rationale for surgery Indications for surgery Augment blood flow Improvement in CBF has been demonstrated Reduction in further ischaemic events Reduction in hemorrhagic events Indications for surgery History of infarct/ haemorrhage Regions to be addressed MCA territory : EDAS,EDAMS, STA – MCA bypass ACA territory : multiple burr holes, STA – ACA bypass, vascularized dural flap

Moyamoya disease Indirect revascularization Direct revascularization EMS,EDAS,EDAMS, EDMAPS (Neurosurgery 66:1093-1101, 2010) Encephalo – galeo – synangiosis Multiple burr holes Omental graft Direct revascularization STA – MCA bypass STA – ACA bypass (technically difficult, poor results) A higher incidence of symptomatic hyperperfusion with direct revascularization as compared to atherosclerotic disease

Aneurysms Only level III evidence available Sacrifice of parent vessel or a major branch As a temporary measure during prolonged temporary clipping of complex aneurysm Aneurysms requiring bypass Giant / blister aneurysms Absence of a neck (fusiform or saccular-fusiform) aneurysms Severe atherosclerosis or calcification in the neck Extensive thrombosis Critical branch origin from neck or sac Symptomatic dissecting aneurysm Blister aneurysm

Cranial base tumors Facilitates tumor removal with better patient outcome and tumor removal Allows surgeon to focus on cranial nerve preservation High morbidity and mortality Performed by few centers Being used less frequently (GKRS)

Cerebral ischemia (occlusive cerebrovascular disease not amenable to carotid endarterectomy) EC – IC bypass study 1985 Not effective preventing ischemia Reduction in bypass Criticism Only half of the patients received antiplatelet agents at entry into study No evaluation preop for cerebrovascular hemodynamic status.. Both the patient and the therapist were not blinded Randomization-to-treatment bias could have occurred No angiographic determinants for entry. A large percentage of patients had no symptoms between the angiographic demonstration of ICA occlusion and randomization. large number of patients underwent surgery outside the study. A high percentage of patients had tandem lesions

COSS study Inclusion criteria Outcome measures Results Surgery arm Complete occlusion of an ICA TIA or ischemic stroke in the hemispheric territory of an occluded internal carotid artery in the preceding 120 days Outcome measures Surgery arm Death or stroke 30 days from surgery Ipsilateral stroke within 2 years Medical arm Death or stroke 30 days from randomization Results Study stopped on 24 June 2010 for futility

Present status of revascularization Cerebral ischemia: most RCT have shown no benefit Moyamoya disease: only class III evidence of benefit Complex aneurysms : class III data. Evidence of benefit IC – IC bypass, lower morbidity, comparable patency rates Skull base tumors: class III evidence of benefit alternative strategies for treatment of residual disease,