Endoluminal flow diverters in the treatment of sidewall and bifurcation aneurysm: A systematic review and meta-analysis of complications and angiographic outcomes

Background and aim The use of endoluminal flow diversion in bifurcation aneurysms has been questioned due to the potential for complications and lower occlusion rates. In this study we assessed outcomes of endovascular treatment of intracranial sidewall and bifurcation aneurysms with flow diverters Methods In July 2020, a literature search for all studies utilizing endoluminal flow diverter treatment for sidewall or bifurcation aneurysms was performed. Data were collected from studies that met our inclusion/exclusion criteria by two independent reviewers and confirmed by a third reviewer. Using random-effects meta-analysis the target outcomes including overall complications (hematoma, ischemic events, minor ischemic stroke, aneurysm rupture, side vessel occlusion, stenosis, thrombosis, transient ischemic stroke, and other complications), perioperative complications, and follow-up (long-term) aneurysm occlusion were intestigated. Results Overall, we included 35 studies with 1084 patients with 1208 aneurysms. Of these aneurysms, 654 (54.14%) and 554 (45.86%) were classified as sidewall and bifurcation aneurysm, respectively, based on aneurysm location. Sidewall aneurysms had a similar total complication rate (R) of 27.12% (95% CI, 16.56%–41.09%), compared with bifurcation aneurysms (R, 20.40%, 95% CI, 13.24%–30.08%) (p = 0.3527). Follow-up angiographic outcome showed comparable complete occlusion rates for sidewall aneurysms (R 69.49%; 95%CI, 62.41%–75.75%) and bifurcation aneurysms (R 73.99%; 95% CI, 65.05%–81.31%; p = 0.4328). Conclusions This meta-analysis of sidewall and bifurcation aneurysms treated with endoluminal flow diverters demonstrated no significant differences in complications or occlusion rates. These data provide new information that can be used as a benchmark for comparison with emerging devices for the treatment of bifurcation aneurysms.

[1]  P. Bhogal,et al.  Flow-T stenting with the Silk Vista Baby and Baby Leo stents for bifurcation aneurysms – A novel endovascular technique , 2020, Interventional neuroradiology : journal of peritherapeutic neuroradiology, surgical procedures and related neurosciences.

[2]  J. Mocco,et al.  Stent-assisted coiling of cerebral aneurysms: multi-center analysis of radiographic and clinical outcomes in 659 patients , 2019, Journal of NeuroInterventional Surgery.

[3]  Justin M. Moore,et al.  No differences in effectiveness and safety between pipeline embolization device and stent-assisted coiling for the treatment of communicating segment internal carotid artery aneurysms , 2019, The neuroradiology journal.

[4]  I. Saatci,et al.  The safety and effectiveness of the Woven EndoBridge (WEB) system for the treatment of wide-necked bifurcation aneurysms: final 12-month results of the pivotal WEB Intrasaccular Therapy (WEB-IT) Study , 2019, Journal of NeuroInterventional Surgery.

[5]  M. Murad,et al.  The pCONUS bifurcation aneurysm implants for endovascular treatment of adults with intracranial aneurysms: A systematic review and meta-analysis , 2019, Surgical neurology international.

[6]  V. Pereira,et al.  A2, M2, P2 aneurysms and beyond: results of treatment with pipeline embolization device in 65 patients , 2019, Journal of NeuroInterventional Surgery.

[7]  P. Perrini,et al.  Y-Stent-Assisted Coiling of Wide-Neck Bifurcation Intracranial Aneurysms: A Meta-Analysis , 2018, American Journal of Neuroradiology.

[8]  R. Tamargo,et al.  Flow diversion covering the M1 origin as a last resort , 2018, Stroke and Vascular Neurology.

[9]  V. Pereira,et al.  Flow Diversion for the Treatment of Basilar Apex Aneurysms , 2018, Neurosurgery.

[10]  J. Grossberg,et al.  Pipeline embolization device treatment of internal carotid artery terminus aneurysms , 2018, Journal of NeuroInterventional Surgery.

[11]  Christopher Putman,et al.  Associations of hemodynamics, morphology, and patient characteristics with aneurysm rupture stratified by aneurysm location , 2018, Neuroradiology.

[12]  H. Arai,et al.  Flow Diverter Therapy Using a Pipeline Embolization Device for 100 Unruptured Large and Giant Internal Carotid Artery Aneurysms in a Single Center in a Japanese Population , 2018, Neurologia medico-chirurgica.

[13]  Justin M. Moore,et al.  Use of Flow Diversion for the Treatment of Distal Circulation Aneurysms: A Multicohort Study. , 2018, World neurosurgery.

[14]  C. Walter,et al.  Current Status of the PulseRider in the Treatment of Bifurcation Aneurysms: A Systematic Review. , 2018, World neurosurgery.

[15]  A. Zomorodi,et al.  Treatment of Dissecting Distal Vertebral Artery (V4) Aneurysms With Flow Diverters. , 2018, Operative neurosurgery.

[16]  Sameer H. Halani,et al.  Reduced Efficacy of the Pipeline Embolization Device in the Treatment of Posterior Communicating Region Aneurysms with Fetal Posterior Cerebral Artery Configuration , 2018, Neurosurgery.

[17]  J Mocco,et al.  An Update on the Adjunctive Neurovascular Support of Wide-Neck Aneurysm Embolization and Reconstruction Trial: 1-Year Safety and Angiographic Results , 2018, American Journal of Neuroradiology.

[18]  A. Ringer,et al.  Treatment of blood blister aneurysms of the internal carotid artery with flow diversion , 2018, Journal of NeuroInterventional Surgery.

[19]  J. Gauvrit,et al.  Safety and efficacy of aneurysm treatment with WEB in the cumulative population of three prospective, multicenter series , 2017, Journal of NeuroInterventional Surgery.

[20]  S. Vedantham,et al.  Acute thrombus formation on phosphorilcholine surface modified flow diverters , 2017, Journal of NeuroInterventional Surgery.

[21]  R. Hanel,et al.  Analysis of Predictors and Probability of Aneurysm Occlusion in the Internal Carotid Artery After Treatment with Pipeline Embolization Device. , 2017, World neurosurgery.

[22]  M. Hussain,et al.  Flow diverter treatment of cerebral blister aneurysms , 2017, Neuroradiology.

[23]  D. Kallmes,et al.  Safety and efficacy of the Pipeline embolization device for treatment of intracranial aneurysms: a pooled analysis of 3 large studies. , 2017, Journal of neurosurgery.

[24]  Justin M. Moore,et al.  Comparison of Stent-Assisted Coil Embolization and the Pipeline Embolization Device for Endovascular Treatment of Ophthalmic Segment Aneurysms: A Multicenter Cohort Study. , 2017, World neurosurgery.

[25]  A. Molyneux,et al.  Safety and Efficacy of Aneurysm Treatment with the WEB: Results of the WEBCAST 2 Study , 2017, American Journal of Neuroradiology.

[26]  R. Tamargo,et al.  Rescue Treatment with Pipeline Embolization for Postsurgical Clipping Recurrences of Anterior Communicating Artery Region Aneurysms , 2017, Interventional Neurology.

[27]  S. Tjoumakaris,et al.  Patency of the posterior communicating artery following treatment with the Pipeline Embolization Device. , 2017, Journal of neurosurgery.

[28]  R. Tamargo,et al.  Endovascular flow diversion for treatment of anterior communicating artery region cerebral aneurysms: a single-center cohort of 50 cases , 2017, Journal of NeuroInterventional Surgery.

[29]  Xinjian Yang,et al.  Bifurcation Type and Larger Low Shear Area Are Associated with Rupture Status of Very Small Intracranial Aneurysms , 2016, Front. Neurol..

[30]  J. Grossberg,et al.  Treatment of complex anterior cerebral artery aneurysms with Pipeline flow diversion: mid-term results , 2016, Journal of NeuroInterventional Surgery.

[31]  C. Ogilvy,et al.  Treatment of Distal Anterior Circulation Aneurysms With the Pipeline Embolization Device: A US Multicenter Experience. , 2016, Neurosurgery.

[32]  A. Molyneux,et al.  Safety and efficacy of aneurysm treatment with WEB: results of the WEBCAST study. , 2016, Journal of neurosurgery.

[33]  J. Moret,et al.  Flow-Diverter Stents for the Treatment of Saccular Middle Cerebral Artery Bifurcation Aneurysms , 2016, American Journal of Neuroradiology.

[34]  P. Liu,et al.  Flow-diverter devices in the treatment of intracranial aneurysms: A meta-analysis and systematic review , 2016, The neuroradiology journal.

[35]  P. Taussky,et al.  Pipeline embolization device for the treatment of vertebral artery aneurysms: the fate of covered branch vessels , 2015, Journal of NeuroInterventional Surgery.

[36]  S. Salas,et al.  Fate of the Ophthalmic Artery After Treatment With the Pipeline Embolization Device. , 2015, Neurosurgery.

[37]  J. Gauvrit,et al.  WEB Treatment of Intracranial Aneurysms: Feasibility, Complications, and 1-Month Safety Results with the WEB DL and WEB SL/SLS in the French Observatory , 2015, American Journal of Neuroradiology.

[38]  F. Bonneville,et al.  Flow diversion treatment of complex bifurcation aneurysms beyond the circle of Willis: a single-center series with special emphasis on covered cortical branches and perforating arteries , 2015, Journal of NeuroInterventional Surgery.

[39]  D. Kallmes,et al.  Patency of the Anterior Choroidal Artery after Flow-Diversion Treatment of Internal Carotid Artery Aneurysms , 2015, American Journal of Neuroradiology.

[40]  A Siddiqui,et al.  International Retrospective Study of the Pipeline Embolization Device: A Multicenter Aneurysm Treatment Study , 2015, American Journal of Neuroradiology.

[41]  F. Caire,et al.  Flow-diverting stents for intracranial bifurcation aneurysm treatment. , 2014, Neurosurgery.

[42]  E. Raz,et al.  Cavernous Carotid Aneurysms in the Era of Flow Diversion: A Need to Revisit Treatment Paradigms , 2014, American Journal of Neuroradiology.

[43]  A. Setton,et al.  Modifying Flow in the ICA Bifurcation: Pipeline Deployment from the Supraclinoid ICA Extending into the M1 Segment—Clinical and Anatomic Results , 2014, American Journal of Neuroradiology.

[44]  Aman B Patel,et al.  An update to the Raymond–Roy Occlusion Classification of intracranial aneurysms treated with coil embolization , 2014, Journal of NeuroInterventional Surgery.

[45]  S. Tjoumakaris,et al.  Treatment of blister-like aneurysms with the pipeline embolization device. , 2014, Neurosurgery.

[46]  D. Kallmes,et al.  Treatment of Cavernous Sinus Aneurysms with Flow Diversion: Results in 44 Patients , 2014, American Journal of Neuroradiology.

[47]  A. Ducruet,et al.  Treatment of ophthalmic segment carotid aneurysms using the pipeline embolization device: clinical and angiographic follow-up , 2014, Neurological research.

[48]  I. Saatci,et al.  Endovascular Treatment of Middle Cerebral Artery Aneurysms with Flow Modification with the Use of the Pipeline Embolization Device , 2014, American Journal of Neuroradiology.

[49]  S. Tjoumakaris,et al.  Flow diversion for complex middle cerebral artery aneurysms , 2014, Neuroradiology.

[50]  T. Yoshimoto,et al.  Pipeline Embolization Device: Lessons Learned After 1000 Aneurysms , 2014 .

[51]  K. Fargen,et al.  A multicenter study of stent-assisted coiling of cerebral aneurysms with a Y configuration. , 2013, Neurosurgery.

[52]  Adnan H Siddiqui,et al.  Pipeline for uncoilable or failed aneurysms: results from a multicenter clinical trial. , 2013, Radiology.

[53]  David L. McArthur,et al.  Use of stent-assisted coil embolization for the treatment of wide-necked aneurysms: A systematic review , 2013, Surgical neurology international.

[54]  David A Steinman,et al.  High-resolution CFD detects high-frequency velocity fluctuations in bifurcation, but not sidewall, aneurysms. , 2013, Journal of biomechanics.

[55]  I. Oran,et al.  Endovascular treatment of ruptured blister-like aneurysms with special reference to the flow-diverting strategy , 2013, Neuroradiology.

[56]  Efficacy and Safety of Flow Diversion for Paraclinoid Aneurysms: A Matched-Pair Analysis Compared with Standard Endovascular Approaches , 2012, American Journal of Neuroradiology.

[57]  D. Kallmes,et al.  Patency of the ophthalmic artery after flow diversion treatment of paraclinoid aneurysms. , 2012, Journal of neurosurgery.

[58]  R. Blanc,et al.  Flow Diverters at and Beyond the Level of the Circle of Willis for the Treatment of Intracranial Aneurysms , 2012, Stroke.

[59]  Bu-Lang Gao,et al.  Identification of a dichotomy in morphological predictors of rupture status between sidewall- and bifurcation-type intracranial aneurysms. , 2012, Journal of neurosurgery.

[60]  R. Vanninen,et al.  The silk flow-diverting stent in the endovascular treatment of complex intracranial aneurysms: technical aspects and midterm results in 24 consecutive patients. , 2012, Neurosurgery.

[61]  C. Tolias,et al.  Mural destabilization after aneurysm treatment with a flow-diverting device: a report of two cases , 2011, Journal of NeuroInterventional Surgery.

[62]  C. Putman,et al.  Aneurysm Rupture Following Treatment with Flow-Diverting Stents: Computational Hemodynamics Analysis of Treatment , 2010, American Journal of Neuroradiology.

[63]  S. Renowden,et al.  Intra-Aneurysmal Thrombosis as a Possible Cause of Delayed Aneurysm Rupture after Flow-Diversion Treatment , 2010, American Journal of Neuroradiology.

[64]  T. Krings,et al.  A Novel Grading Scale for the Angiographic Assessment of Intracranial Aneurysms Treated Using Flow Diverting Stents , 2010, Interventional neuroradiology : journal of peritherapeutic neuroradiology, surgical procedures and related neurosciences.

[65]  Bernd Turowski,et al.  Early fatal hemorrhage after endovascular cerebral aneurysm treatment with a flow diverter (SILK-Stent) , 2010, Neuroradiology.

[66]  J. Fiehler,et al.  Prevention and Treatment of Thromboembolism during Endovascular Aneurysm Therapy* , 2009, Clinical Neuroradiology.

[67]  H. Woo,et al.  A novel endovascular treatment of a wide-necked basilar apex aneurysm by using a Y-configuration, double-stent technique. , 2004, AJNR. American journal of neuroradiology.

[68]  I. Saito [Unruptured intracranial aneurysms]. , 2004, No to shinkei = Brain and nerve.

[69]  D. Altman,et al.  Measuring inconsistency in meta-analyses , 2003, BMJ : British Medical Journal.

[70]  Yuichi Murayama,et al.  Guglielmi detachable coil embolization of cerebral aneurysms: 11 years' experience. , 2003, Journal of neurosurgery.

[71]  G. Smith,et al.  Bias in meta-analysis detected by a simple, graphical test , 1997, BMJ.