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How to deal with thrombus in ACS "Zap it" - Laser for Thrombus. Suneel Talwar Dorset Heart Centre Royal Bournemouth Hospital. Conflict of Interest. Consultant/Advisory Board Spectranetics Clinical & Research Grant Support Boston Scientific Corporation Cordis. Excimer Laser.
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How to deal with thrombus in ACS"Zap it" - Laser for Thrombus Suneel Talwar Dorset Heart Centre Royal Bournemouth Hospital
Conflict of Interest • Consultant/Advisory Board • Spectranetics • Clinical & Research Grant Support • Boston Scientific Corporation • Cordis
Excimer Laser - Photoablation is the use of light to vaporize and remove tissue
Mechanism of Action Three distinct mechanisms of action contribute to Excimer Laser Photoablation
Photochemical Mechanism: Breaking Molecular Bonds 0 - 125 billionths of a second • UV light pulse hits tissue for 125 billionths of a second • 50 microns penetration • Billions of molecular bonds fractured per pulse
Photothermal Mechanism: Producing thermal energy • Absorption creates molecular vibration in tissue • Vibration of molecules heats intracellular water • Water vaporizes, rupturing cells • Steam forms expanding vapor bubble
Photomechanical Mechanism: Creating kinetic energy 400 millionths of a second • Expansion and collapse of vapor bubble breaks down tissue and clears by-products away from tip • By-products of ablation are water, gas, and small particles (90%<10 microns = size of red blood cell)
The Excimer wavelength is very close to what is used in eye surgery, indicative of its shallow depth of penetration and hence safety
Affinity for Photon Absorption The Excimer wavelength is ideally suited for absorption by the acute thrombus
The Laser inhibits platelet aggregation acting like a localized IIB IIIa Inhibitor placebo 30mj 60mj
The data obtained from the participating centres was submitted to independent core laboratories for quantitative coronary analysis and statistical analysis.
High risk patients included • 30% of the patients had Diabetes • 24% had previous CABG • 23% had sustained a previous MI • 28% had a contraindication to thrombolysis • 13% presented to the cath lab with cardiogenic shock. • The target vessel for revascularisation was an old saphenous vein graft in 21% of patients.
The greater amount of thrombus the better the result with the Laser
Extended FAMILIFlow in Acute Myocardial Infarction Patients after Laser Intervention - Extended Pilot Study Study Summary
Extended FAMILI Objective:To benchmark microvascular coronary blood flow in AMI patients after percutaneous intervention that includes excimer laser coronary atherectomy Study Design:Prospective non-randomized study in up to 20 sites, and up to 80 patients. Principal Investigators: Jeffrey Moses, MD Antonio Columbo, MD
EXTENDED FAMILI RESULTS Laser Success: Defined as TIMI 2-3 with > 20% reduction in %DS post laser. Procedure Success: Defined as TIMI 3 flow and < 50% DS on final angiogram without in-hospital MACE. - Laser Success: 94% - Procedure Success: 96% - 30 Day-MACE: 3% Low MACE correlated with the high Blush Scores
Thrombus Aspiration during Primary PCI: TAPAS study Svilaas T et al. N Engl J Med 2008;358:557-567
Extended FAMILI: Conclusions • Laser appears safe for thrombus ablation in Acute MI: 30 Day MACE 3% • High Procedural Success Rate of 91% • Extended FAMILI appears equivalent in TIMI flow rates compared to other thrombectomy studies. • Blush scores post-procedure appear to be significantly better than the other thrombectomy studies. .
TAAMI:Thrombus Ablation in Acute Myocardial Infarction • Randomised controlled study comparing a Laser-Stent strategy to a Balloon-Stent strategy • N= 200 • 5 sites in Poland
TAAMI:Thrombus Ablation in Acute Myocardial Infarction • Primary Endpoint • Complete ST resolution and MBG 3 immediately post procedure • Secondary Endpoint • MACE 30 days • MBG • TIMI Flow rates post Laser • TIMI frame count • ST reolution at 60 minutes post procedure
Our Approach in AMI • Turn on the Laser prior to arrival of patient in the Lab to avoid delays • Laser Catheter: For most total occlusions start with a 0.9/1.4 catheter (both are 6F compatible) • The laser will work over any 0.014 wire • The vapor bubble works best in a saline medium (blood and contrast must be flushed prior to lasing) • Activate the laser a few mm proximal to the start of the lesion • to maximize the effect of the advancing vapor bubble • and to avoid cavitation into the plaque • Use higher energies and rates from the start (60/40) • to create a larger vapor bubble • and lead to better inhibition of platelet aggregation • In order to get the effect of the advancing vapor bubble, the laser catheter must be advanced very slowly (rate of <1mm per second)
Conclusion • The use of the excimer laser is feasible and safe in the setting of an AMI • Laser treatment has been shown to result in significant thrombus removal, suggesting direct laser energy absorption and thrombus vaporisation • The potential clinical benefits of the stunned platelet phenomenon await clinical confirmation • A prospective randomised multicentre comparing this to convention angioplasty and stenting as well as thrombectomy is necessary to confirm the observations made so far