Endovascular thrombectomy first-pass reperfusion and ancillary device placement

Background Recent randomized trials have demonstrated the efficacy of mechanical thrombectomy in treating acute ischemic stroke, however, further research is required to optimize this technique. We aimed to evaluate the impact of guide catheter position and clot crossing on revascularization rates using A Direct Aspiration First Pass Technique (ADAPT). Methods Data were collected between January 2018 and August 2019 as part of the Spanish ADAPT Registry on ACE catheters (SARA), a multicenter observational study assessing real-world thrombectomy outcomes. Demographic, clinical, and angiographic data were collected. Subgroup analyses assessed the relationship between guide catheter/microguidewire position and modified Trombolysis in Cerebral Infarction (mTICI) scores. First pass effect (FPE) was defined as mTICI 3 after single pass of the device. Results From a total of 589 patients, 80.8% underwent frontline aspiration thrombectomy. The median score on the National Institutes of Health Stroke Scale (NIHSS) was 16.0. After adjusting for confounders, the likelihood of achieving FPE (adjusted Odds Ratio (aOR), 0.587; 95% confidence interval (CI), 0.38 to 0.92; p=0.0194) were higher among patients with more distal petrocavernous placement of guide catheter. The likelihood of achieving FPE (aOR, 0.592; 95% CI, 0.39 to 0.90; p=0.0138) and final angiogram complete reperfusion (aOR, 0.465; 95% CI, 0.30 to 0.73; p=0.0008) were higher among patients without microguidewire crossing the clot. No difference was noted for time from arterial puncture to reperfusion in any study group. At the 90-day follow-up, the mortality rate was 9.2% and 65.8% of patients across the entire study cohort were functionally independent (modified Rankin Scale (mRS) 0–2). Conclusions Petrocavernous guide catheter placement improved first-pass revascularization. Crossing the occlusion with a microguidewire lowered the likelihood of achieving FPE and complete reperfusion after final angiogram.

[1]  H. Marquering,et al.  Distal Embolization in Relation to Radiological Thrombus Characteristics, Treatment Details, and Functional Outcome , 2023, Stroke.

[2]  D. Kallmes,et al.  Operator assessment versus core laboratory adjudication of recanalization following endovascular treatment of acute ischemic stroke: a systematic review and meta-analysis , 2022, Journal of NeuroInterventional Surgery.

[3]  D. Liebeskind,et al.  Economic impact of the first pass effect in mechanical thrombectomy for acute ischaemic stroke treatment in Spain: a cost-effectiveness analysis from the national health system perspective , 2022, BMJ Open.

[4]  N. Herial,et al.  A review of mechanical thrombectomy techniques for acute ischemic stroke , 2022, Interventional neuroradiology : journal of peritherapeutic neuroradiology, surgical procedures and related neurosciences.

[5]  Ana Catarina Fonseca,et al.  European Stroke Organisation (ESO)–European Society for Minimally Invasive Neurological Therapy (ESMINT) expedited recommendation on indication for intravenous thrombolysis before mechanical thrombectomy in patients with acute ischemic stroke and anterior circulation large vessel occlusion , 2022, Journal of NeuroInterventional Surgery.

[6]  S. Vannier,et al.  Thrombectomy Complications in Large Vessel Occlusions: Incidence, Predictors, and Clinical Impact in the ETIS Registry , 2021, Stroke.

[7]  A. Doerfler,et al.  Endovascular Treatment of Acute Ischemic Stroke With the Penumbra System in Routine Practice , 2021, Stroke.

[8]  R. Kadirvel,et al.  Per-pass analysis of recanalization and good neurological outcome in thrombectomy for stroke: Systematic review and meta-analysis , 2021, Interventional neuroradiology : journal of peritherapeutic neuroradiology, surgical procedures and related neurosciences.

[9]  M. Mokin,et al.  Comparative study of intracranial access in thrombectomy using next generation 0.088 inch guide catheter technology , 2021, Journal of NeuroInterventional Surgery.

[10]  J. Gornbein,et al.  Frequency, Determinants, and Outcomes of Emboli to Distal and New Territories Related to Mechanical Thrombectomy for Acute Ischemic Stroke , 2021, Stroke.

[11]  D. Kallmes,et al.  Systematic review and meta-analysis of current rates of first pass effect by thrombectomy technique and associations with clinical outcomes , 2021, Journal of NeuroInterventional Surgery.

[12]  Yue Zhang,et al.  A direct aspiration first-pass technique (ADAPT) versus stent retriever for acute ischemic stroke (AIS): a systematic review and meta-analysis , 2020, Journal of Neurology.

[13]  Yinhang Zhang,et al.  Influence of first-pass effect on recanalization outcomes in the era of mechanical thrombectomy: a systemic review and meta-analysis , 2020, Neuroradiology.

[14]  Michael J. Lang,et al.  Ballast and NeuronMax in stroke thrombectomy , 2020, Journal of NeuroInterventional Surgery.

[15]  A. Demchuk,et al.  Public Health and Cost Benefits of Successful Reperfusion After Thrombectomy for Stroke , 2020, Stroke.

[16]  S. Ansari,et al.  GUide sheath Advancement and aspiRation in the Distal petrocavernous internal carotid artery (GUARD) Technique during Thrombectomy Improves Reperfusion and Clinical Outcomes , 2019, American Journal of Neuroradiology.

[17]  M. Wiesmann,et al.  True First-Pass Effect. , 2019, Stroke.

[18]  M. Wiesmann,et al.  Preventing vessel perforations in endovascular thrombectomy: feasibility and safety of passing the clot with a microcatheter without microwire: the wireless microcatheter technique , 2018, Journal of NeuroInterventional Surgery.

[19]  D. Yavagal,et al.  Unfavorable Vascular Anatomy Is Associated with Increased Revascularization Time and Worse Outcome in Anterior Circulation Thrombectomy. , 2018, World neurosurgery.

[20]  J. Chueh,et al.  Microcatheter navigation through the clot: does size matter? , 2018, Journal of NeuroInterventional Surgery.

[21]  V. Pereira,et al.  ADAPT technique with ACE68 and ACE64 reperfusion catheters in ischemic stroke treatment: results from the PROMISE study , 2018, Journal of NeuroInterventional Surgery.

[22]  A. Rai,et al.  First Pass Effect: A New Measure for Stroke Thrombectomy Devices , 2018, Stroke.

[23]  M. Mazighi,et al.  A Direct Aspiration, First Pass Technique (ADAPT) versus Stent Retrievers for Acute Stroke Therapy: An Observational Comparative Study , 2016, American Journal of Neuroradiology.

[24]  J. Mocco,et al.  Initial clinical experience with the ADAPT technique: A direct aspiration first pass technique for stroke thrombectomy , 2013, Journal of NeuroInterventional Surgery.

[25]  B. Turner Hospital , 2006 .

[26]  M. Kaste,et al.  Randomised double-blind placebo-controlled trial of thrombolytic therapy with intravenous alteplase in acute ischaemic stroke (ECASS II) , 1998, The Lancet.

[27]  M. Hill,et al.  Systematic Review of the Cost and Cost-Effectiveness of Rapid Endovascular Therapy for Acute Ischemic Stroke , 2017, Stroke.