Vascular plugs are associated with reduced fluoroscopy times compared to endovascular coils in proximal splenic artery embolization in trauma

Purpose: Proximal splenic artery embolization plays an important role in the treatment of hemodynamically stable blunt splenic trauma patients with medium- to high-grade injuries. Proximal splenic artery embolization is most often performed utilizing endovascular coils or vascular plugs. The objective of this study was to compare technical and clinical outcomes of proximal splenic artery embolization using either endovascular coils or vascular plugs in patients with traumatic splenic injuries. Materials and methods: A single-institution retrospective review of all proximal splenic artery embolizations for trauma over a 5-year period was performed. Patients who underwent embolization using both endovascular coils and vascular plugs were excluded. Baseline characteristics, including patient age, sex, and grade of splenic injury, were recorded. Complication rates, rates of splenic salvage, and total fluoroscopy time were recorded and compared. Results: A total of 26 patients were included in the analysis (17 males, 9 females, median age: 50 years). Of these, 15 patients were treated with vascular plugs (57.7%), while 11 patients (42.3%) were treated with endovascular coils. Mean grade of injury was 3.5 and 4.1 in the vascular plug and endovascular coils groups, respectively. There were no differences between the groups regarding these baseline characteristics. Splenic salvage was 100% in both groups. No major complications were identified in either group. Mean fluoroscopy time was significantly lower in the vascular plug group (14.5 versus 34.0 min; p < 0.0001). Conclusion: Proximal splenic artery embolization for splenic trauma can be satisfactorily achieved with either vascular plugs or endovascular coils with no differences in splenic salvage or complication rates in this retrospective study. However, embolization utilizing vascular plugs had significantly reduced fluoroscopy times.

Lagrangian Trajectory Simulation of Platelets and Synchrotron Microtomography Augment Hemodynamic Analysis of Intracranial Aneurysms Treated With Embolic Coils

As frequency of endovascular treatments for intracranial aneurysms increases, there is a growing need to understand the mechanisms for coil embolization failure. Computational fluid dynamics (CFD) modeling often simplifies modeling the endovascular coils as a homogeneous porous medium (PM), and focuses on the vascular wall endothelium, not considering the biomechanical environment of platelets. These assumptions limit the accuracy of computations for treatment predictions. We present a rigorous analysis using X-ray microtomographic imaging of the coils and a combination of Lagrangian (platelet) and Eulerian (endothelium) metrics. Four patient-specific, anatomically accurate in vitro flow phantoms of aneurysms are treated with the same patient-specific endovascular coils. Synchrotron tomography scans of the coil mass morphology are obtained. Aneurysmal hemodynamics are computationally simulated before and after coiling, using patient-specific velocity/pressure measurements. For each patient, we analyze the trajectories of thousands of platelets during several cardiac cycles, and calculate residence times (RTs) and shear exposure, relevant to thrombus formation. We quantify the inconsistencies of the PM approach, comparing them with coil-resolved (CR) simulations, showing the under- or overestimation of key hemodynamic metrics used to predict treatment outcomes. We fully characterize aneurysmal hemodynamics with converged statistics of platelet RT and shear stress history (SH), to augment the traditional wall shear stress (WSS) on the vascular endothelium. Incorporating microtomographic scans of coil morphology into hemodynamic analysis of coiled intracranial aneurysms, and augmenting traditional analysis with Lagrangian platelet metrics improves CFD predictions, and raises the potential for understanding and clinical translation of computational hemodynamics for intracranial aneurysm treatment outcomes.

Abstract 17230: Transcatheter Leak Occlusion With Endovascular Coils Following Left Atrial Appendage Closure

Introduction: The Transcatheter Leak Closure With Detachable Coils Following Incomplete Left Atrial Appendage Closure Procedures (TREASURE) is a prospective, nonrandomized, single-center study. This study was undertaken to investigate the efficacy of transcatheter leak closure with endovascular coils in patient with incomplete percutaneous/epicardial left atrial appendage (LAA) closure procedures and high thromboembolic (TE)- and bleeding-risk. Hypothesis: We report the efficacy of transcatheter leak closure with endovascular coils in patients with incomplete LAA closure. Methods: Sixty-five consecutive patients with a clinically relevant residual leak (mean age: 72±8 years; 73.8% males; CHA 2 DS 2 -VASc: 4.7±1.1; HAS-BLED: 3.7±0.7) underwent percutaneous closure of the LAA patency via embolization coils. Trans-esophageal echocardiography (TEE) was performed at 60±15 days post-procedure. Results: LAA closure had been previously attempted with a Watchman device in 62 patients, and a LARIAT in 3. Baseline TEE documented a moderate or severe leak in 14 (21.5%) and 51 (78.5%) patients, respectively. Procedure and fluoroscopy times were 69±37min and 22±15min, respectively; the mean volume of iodinated contrast medium used was 82±43mL. Coil deployment was successful in all cases [median n. of coils attempted: 3 (IQR:2-5); median n. of coils deployed: 3 (IQR: 2-4)]. The overall complication rate was 3.1% (1 pericardial tamponade, 1 pericardial effusion). Peri-procedural angiographic and TEE outcomes demonstrated complete obliteration or a negligible residual opacification with a trivial residual jet in 62 cases (95.4%), and a partial occlusion with moderate residual jet in 3 (6.4%). Follow-up TEE after 67±12 days revealed complete LAA sealing or a negligible residual leak in 63 cases (96.9%). Coil deployment led to an average reduction of 90.1% in leak size (p<0.001). After an overall follow-up of 17±4 months, no TE events were documented; 3 patients died from non-cardiovascular and one from cardiovascular causes (heart failure). Conclusions: Transcatheter LAA leak occlusion via endovascular coils appears to be a safe, effective, and promising approach in high TE-risk patients with incomplete LAA closure.

Advances in endovascular aneurysm management: coiling and adjunctive devices

Endovascular coil embolisation continues to evolve and remains a valid modality in managing ruptured and unruptured cerebral aneurysms. Technological advances in coil properties, adjunctive devices and interventional techniques continue to improve long-term aneurysm occlusion rates. This review elaborates on the latest advances in next-generation endovascular coils and adjunctive coiling techniques for treating cerebral aneurysms.