Mathematic Analysis of Incremental Packing Density with Detachable Coils: Does That Last Coil Matter Much?

Discussion

Applying a 3-step endovascular coiling technique, with the last step involving “finishing” the previously “framed and filled coil basket” makes sense in an attempt to insert as many coils as possible to prevent possible compaction.^6,8 Because of basic geometric principles, however, the length of coil material needed to achieve significant increase in packing attenuation increases exponentially with aneurysm size (Figs 1 and 2). Coils that add <1% packing attenuation per centimeter could be considered to be inefficient for improving aneurysm treatment outcome (Table).

Because packing attenuation has been shown to have a direct relationship to the rate of aneurysm recurrence, the practice of maximizing the volume of coil used to treat each aneurysm certainly has a scientific foundation. However, given the increased expense of each incremental single coil as well as the increased risk of coil protrusion into the parent artery at the finishing stage of coiling, the additional benefit of using small coils toward the conclusion of treatment needs to be carefully considered. While there may be additional theoretic reasons by which finishing coils decrease the rate of recurrence (ie, better occlusion of the inflow zone), they often do little to increase packing attenuation in larger aneurysms. For example, adding an incremental 2 × 8 mm 0.010-inch coil to a 10-mm diameter aneurysm adds slightly <1% to the packing attenuation. Moreover, complications (both embolic and hemorrhagic) during coil embolization of intracranial aneurysms are often observed in the final steps of the procedure. Another technique of exclusively using very small coils in a continuous fashion to achieve a packing attenuation of ≥25% may not be very cost-effective. The Web site Angiocalc.com allows the endovascular surgeon to calculate the packing attenuation of the aneurysm according to the number and kind of coils used.

The high recurrence rate of larger aneurysms after coil treatment may be, in large part, due to the low packing attenuation achievable as aneurysms increase in size.⁴ Detachable coils may be associated with a high recurrence rate with treatment of large cerebral aneurysms because simple geometric issues preclude achieving a high packing attenuation in most cases. While coils with complex shapes can help in forming a basket for the initial coil, it is not clear whether they augment packing attenuation significantly.^9,10 The softness of the coils can also affect the packing attenuation achievable. Packing attenuation certainly has a direct relationship to the volume of each coil added, which is independent of coil shape or softness. Given the limited length and volume of coil that can technically still be inserted into the aneurysm at the final stages of coil embolization and the potential complications of aggressively pushing the last coil, these last coils may add little to the overall packing attenuation of the aneurysm.