Rehearsals using patient-specific 3D-printed aneurysm models for simulation of endovascular embolization of complex intracranial aneurysms: 3D SIM study - 21/12/21

Doi : 10.1016/j.neurad.2021.11.008

Anthony LEBRAS, MD, PhD ^a,^b, Fakhreddine BOUSTIA, MD ^b, Kevin JANOT, MD ^c, Estelle LEPABIC, PhD ^d, Mathilde OUVRARD, PhD ^e, Claire FOUGEROU-LEURENT, MD ^f, Jean-Christophe FERRE, MD, PhD ^b, Jean-Yves GAUVRIT, MD, PhD ^b, François EUGENE, MD ^b,^⁎
^a Service de Radiologie, Centre Hospitalier Bretagne Atlantique, France
^b Service de Radiologie, Centre Hospitalier Universitaire de Rennes, France
^c Service de Radiologie, Centre Hospitalier Universitaire de Tours, France
^d Service de Biostatistiques, Centre Hospitalier Universitaire de Rennes, France
^e Direction de la Recherche, Centre Hospitalier Universitaire de Rennes, France
^f Service de Pharmacologie Clinique, Centre Hospitalier Universitaire de Rennes, France

^⁎Corresponding author.

Sous presse. Épreuves corrigées par l'auteur. Disponible en ligne depuis le Tuesday 21 December 2021
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Highlights

•	Challenging embolization of complex intracranial aneurysms, with advanced devices (WEB, flow diverters).
•	Pre-operative rehearsals could be helpful for advanced device selection.
•	Patient-specific 3D-printed models bring haptic feedback and reliable model.
•	Implantation failure of advanced device and radiation dose of procedure could be reduced by EVIAS solution rehearsals.

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Abstract

Background

In neurovascular treatment planning, endovascular devices to manage complex intracranial aneurysms requiring intervention are often selected based on conventional measurements and interventional neuroradiologist experience. A recently developed technology allows a patient-specific 3D-printed model to mimic the navigation experience. The goal of this study was to assess the effect of pre-procedure 3D simulation on procedural and clinical outcomes for wide-neck aneurysm embolization.

Materials & methods

In this unblinded, non-randomized, prospective, multicenter study conducted from November 18 through December 20, patients with complex intracranial aneurysms (neck > 4 mm or ratio < 2^{1Hendricks B.K., Yoon J.S., Yaeger K., et al. Wide-neck aneurysms: systematic review of the neurosurgical literature with a focus on definition and clinical implications J Neurosurg 2020 ; 133 : 159-16510.3171/2019.3.jns183160

Cliquez ici pour aller à la section Références}) were treated by WEB or flow diverter stents (FDS). The primary endpoint was concordance between simulation and procedure, 3D-printed model accuracy as well as embolization outcomes including complications, procedure times, and radiation dose were also assessed. Secondary endpoint was to compare versus a retrospective WEB cohort.

Results

Twenty-one patients were treated, 76% of cases by WEB and 24% by FDS. Concordance between post-simulation and real procedure efficiency was 0.85 [0.69 – 1.00] for size device selection and 0.93 [0.79 – 1.00] for wall-apposition/aneurysm neck closure. Geometrical accuracy of the 3D-printed model showed a mean absolute shift of 0.11 mm. Two complications without major clinical impact were reported with a post-operative mRS similar to pre-procedure mRS for all patients.

Conclusions

Rehearsal using accurate 3D-printed patient-specific aneurysm models enabled optimization of embolization strategy, resulting in reduced procedure duration and cumulative fluoroscopy time which translated to reduced radiation exposure compared to procedures performed without simulation.

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Graphical abstract

Rehearsals Using Patient-Specific 3d-Printed Aneurysm Models For Simulation Of Endovascular Embolization Of Complex Intracranial Aneurysms: 3d Sim Study