Coiling of Large and Giant Aneurysms: Complications and Long-Term Results of 334 Cases

Discussion

In this study, we have reviewed our experience with coil embolization of large and giant aneurysms (≥10 mm) and identified several independent predictors of treatment outcome. This report may serve as a reference for comparison with other treatment options for this category of aneurysm, namely flow diversion and surgical clipping. Our study has also afforded an opportunity to compare different endovascular techniques in terms of complications and angiographic outcome.

Coil embolization remains the most commonly used endovascular technique for securing large and giant aneurysms. Complications occurred in 10.5% of patients in our series, but many were clinically silent or minor events. The procedural mortality rate was minimal (0.3%), and the rate of favorable outcome at clinical follow-up (92%) was high. Unfortunately, to our knowledge, there are no reports in the literature pertaining specifically to large and giant aneurysms (>10 mm) with which to compare our findings. In a systematic review of giant aneurysms (≥25 mm) treated with conventional endovascular approaches, the rates of morbidity and mortality were 17% and 8%, respectively.⁸ Gruber et al⁹ treated 31 very large and giant aneurysms (>20 mm) with endosaccular coiling with a 13.3% procedure-related morbidity rate and a 6.7% procedure-related mortality rate and reported favorable outcomes in 73.3% of patients. Likewise, Sluzewski et al¹⁰ achieved a good clinical outcome in nearly 80% of patients with very large and giant aneurysms (>20 mm) treated with coiling. The higher rate of favorable outcomes in our study likely reflects the inclusion of smaller aneurysms (10–20 mm) in the analysis. In fact, increasing aneurysm size was independently predictive of poor outcome, recanalization, retreatment, and new or recurrent hemorrhage in multivariate analysis. Overall, coiling of large and giant aneurysms (≥10 mm) in our experience was associated with a reasonable safety profile and good clinical outcomes. Patients with larger aneurysms, however, are at higher risk of poor outcome.

The present study demonstrates high rates of recurrence (39%) and retreatment (33%) for large and giant aneurysms treated with coiling. Moreover, the risk of aneurysm recurrence was 54.5% after the first recoiling and 53.3% after the second recoiling. Aneurysm reopening remains, therefore, the major shortcoming of coiling (and repeat coiling) in large and giant aneurysms. This has been attributed to thrombus resolution, coil migration into the thrombus mass, and suboptimal packing of these aneurysms.¹⁰ Our results are remarkably similar to those of Murayama et al,¹¹ who reported, in 2003, their 11-year experience with aneurysm embolization. The recanalization rate was 35.3% for large aneurysms in their study and 59.1% for giant aneurysms. The lack of improvement relative to this prior series published 10 years ago suggests that further improvement in occlusion/recanalization rates for large aneurysms may well require adjunctive therapy. The fact that stent-assisted coiling was associated with lower recurrence rates in multivariate analysis compared with conventional coiling (with or without balloon assistance) is a crucial finding of our study. In addition, the risk of a second aneurysm recurrence was lower when recoiling was performed with-versus-without stent assistance (37.5% versus 61.5%). Moreover, there was a lower incidence of new or recurrent hemorrhage in patients treated with stent-assisted coiling versus conventional coiling (1.1% versus 4.7%).

Several reasons may account for the improved durability of treatment with self-expanding stents, including denser aneurysm packing with increased neck coverage, flow diversion, parent vessel straightening, and fibroelastic tissue formation along the neck of the aneurysm.^{12⇓⇓⇓–16} Most important, the lower recurrence and rebleeding rates with stent-assisted techniques did not occur at the expense of an increased rate of complications. Previously, Piotin et al¹⁷ reported permanent neurologic deficit and mortality rates as high as 7.4% and 4.6%, respectively, with stent-assisted coiling compared with 3.8% and 1.2% with conventional coiling. Our study emphasizes the safety and efficacy of stent-assisted coiling and suggests that it may be the preferred treatment technique over conventional coiling for large and giant aneurysms.

The annual rebleeding rate was 1.9% in our study, exceeding the rate reported in the endovascular arm of the International Subarachnoid Aneurysm Trial.¹⁸ This is expected given that 92% of coiled aneurysms in this trial were ≤10 mm. Rebleeding occurred both early and late after initial coiling and was independently predictive of poor clinical outcome. Larger aneurysms (>15 mm) and basilar tip, anterior communicating, and posterior communicating aneurysms were strong predictors of rebleeding. Thus, patients with these risk factors should be very carefully followed and retreated, preferentially with stent-assisted techniques, in the event of aneurysm reopening to prevent rehemorrhage.

Recoiling in the present study was associated with a relatively low complication rate (5%) and no mortality. Previous studies have reported similarly low morbidity rates with recoiling. A multicenter study of 100 aneurysms requiring additional coiling because of an enlarging remnant and subtotal occlusion reported minor permanent neurologic deficits in only 3% of cases.¹⁹ Likewise, Kang et al²⁰ and Slob et al²¹ observed no complications during repeat embolization of recurrent aneurysms and suggested that procedural morbidity for retreatment may be lower than that for initial coiling.

The rate of complications for unruptured large and giant aneurysms in our study was low (7.4%), and excellent outcomes were achieved in this group. The best endovascular technique for these aneurysms (ie, coiling versus flow diversion), however, is not clear. In a small series of 42 patients, Lanzino et al²² reported similar rates of morbidity and a higher rate of complete angiographic obliteration with the PED (mean aneurysm size, 14.9 mm) compared with standard endovascular techniques (mean aneurysm size, 13.9 mm). The authors concluded that careful long-term follow-up was important to definitively validate flow diversion as a superior treatment for proximal internal carotid artery aneurysms. Elsewhere, flow diversion was associated with significant procedural risks. A recent systematic review on unruptured aneurysms treated with endovascular techniques found that flow diversion was associated with significantly higher risks compared with other endovascular techniques.²³ The risk of major stroke or neurologic death was 5.6% in the Pipeline for Uncoilable or Failed Aneurysms trial²⁴ (mean aneurysm size, 14.6 mm) and 8.5% (including 4 fatal postprocedural hemorrhages) in a recent multicenter study from 7 American neurosurgical centers (proportion of aneurysms larger than 7 mm, 83%).²⁵ In the Canadian experience (mean aneurysm size, 19 mm), the overall morbidity and mortality rate associated with PED treatment was 10.7% (6.3% mortality, 4.4% morbidity).²⁶

These data suggest that the risk associated with flow diversion is not insignificant and that further study is needed to elucidate the best treatment option for unruptured large and giant aneurysms. On the other hand, for patients with acutely ruptured aneurysms, flow diversion is barely an option and almost all aneurysms are either coiled or clipped. McAuliffe and Wenderoth²⁷ treated 11 patients with recently ruptured aneurysms by using the PED and reported 2 deaths during the acute illness due to aneurysm rebleeding (18%). The authors recommended that the device be used as a coil scaffold rather than a flow diverter. In the posterior circulation as well, flow diversion is generally used very cautiously because it is associated with significant morbidity and high rates of perforator infarcts.^25,28,29 Conversely, in the present study, there was a trend toward lower complication rates with coiling in the posterior circulation. Thus, coiling remains the preferred option for ruptured aneurysms and posterior circulation aneurysms.

Parent vessel occlusion is widely used in the management of giant intracranial aneurysms. The complication rate in the present series (14.3%) was within the range reported in the literature,^{16,30⇓⇓–33} and aneurysm reopening was somewhat uncommon. The advantage of the technique is that it excludes the aneurysm definitely from the circulation and may not require follow-up imaging.⁴ In contrast to flow diverters and endosaccular coiling, there is practically no risk of delayed aneurysm rupture after parent vessel occlusion. For some authors, parent vessel occlusion is the safest and most effective treatment for large and giant aneurysms and remains the first-line option in this setting.³⁴ The main disadvantage of parent vessel occlusion is the risk of development of postoperative stroke. Therefore, it is important to perform a balloon test occlusion to determine patient tolerance for permanent arterial occlusion because the incidence of postoperative stroke is substantially higher without previous tolerance testing.^35⇓–37 Also, in the setting of subarachnoid hemorrhage, parent vessel occlusion is generally avoided due to potential aggravation of ischemic complications of vasospasm.

This was a retrospective review of a single-center experience with coiling of large and giant aneurysms. There was no randomization of the different subgroups of the study. Comparison with other studies reporting on flow diversion or surgical clipping remains limited by inherent differences in methodology and design. In the future, it would be interesting to compare conventional endovascular techniques with flow diversion or surgical clipping to determine the best technique in this setting.