Eric M. Deshaies, Walter Jacobsen, Satish Krishnamurthy
.
DOI: 10.4236/wjns.2011.13007   PDF    HTML     5,807 Downloads   11,607 Views   Citations

Abstract

Objective and Importance—Vertebrobasilar artery aneurysms can be very challenging to treat and are preferentially dealt with using endovascular tech-niques, since they are associated with lower risk than surgical clipping. Small aneurysms located on perfo-rating arteries can pose problems though, as their dimensions may not be favorable for coiling and leave the endovascular surgeon without many options. We present a basilar perforating artery aneurysm that was successfully embolized using a stent-within-stent technique. Clinical Presentation—A 47 year old fe-male presented with a Hunt-Hess 3, Fisher Grade-3 subarachnoid hemorrhage with blood in the pre-pontine cistern. Initial imaging (CT angiogram and digital subtraction angiography) did not reveal an aneurysm. Follow-up angiography on post-bleed day eight demonstrated a three-millimeter basilar perforating artery aneurysm. After an unsuccessful coiling attempt a closed-cell stent-within-stent tech-nique was used to divert flow away from the aneu-rysm neck to induce aneurysm thrombosis. Interven-tion (or Technique)—Multiple attempts were made to access and stabilize a microcatheter in the small basilar perforator artery aneurysm in order to de-liver coils for endovascular embolization; this could not be done safely. Therefore a closed-cell 4.5 × 22 mm Enterprise stent (Cordis Neurovascular, Inc., Miami Lakes, Florida) was deployed in the basilar artery across the origin of the perforator aneurysm in order for the stent tines to divert flow away from the aneurysm neck and induce thrombosis. Persistant brisk flow within the aneurysm continued however, and a second closedcell 4.5 × 22 mm Enterprise stent was placed within the first one to increase the stent metal surface area across the aneurysm neck to further reduce flow into the aneurysm. Subsequently, angiography demonstrated stagnant blood flow in the aneurysm dome and the aneurysm spontaneously thrombosed, sparing all associated vessels. Conclu-sion—Stent-within-stent technique should be consid-ered as a possible endovascular treatment option for small side-wall and perforator artery aneurysms that can’t be safely treated with coils or embolic agents.

Keywords

Aneurysm; Basilar, Enterprise; Stent; Subara- chnoid Hemorrhage

Share and Cite:

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Schievink, W.I. (1997) Intracranial aneurysms. New England Journal of Medicine, 336, 28-40. doi:10.1056/NEJM199701023360106
[2]	Wijdicks, E.F., Kallmes, D.F., Manno, E.M., Fulgham, J.R. and Piepgras, D.G. (2005) Subarachnoid hemorrhage: Neurointensive care and aneurysm repair. Mayo Clinic Proceedings, 80, 550-559. doi:10.4065/80.4.550
[3]	Rhoton, A.J. (2002) Aneurysms. Neurosurgery, 51, 121-158. doi:10.1097/00006123-200210001-00004
[4]	Leusseveld, E.B.E., Nijssen, P.C., Van Rooij, W.J., Sluzewski, M., Tulleken, C.A., Wijnalda, D., Schellens, R.L., Van der Graaf, Y. and Rinkel, G.J. (2002) Endovascular coiling versus neurosurgical clipping in patients with a ruptured basilar tip aneurysm. Journal of Neurology Neurosurgery and Psychiatry, 73, 591-593. doi:10.1136/jnnp.73.5.591
[5]	Van der Schaaf I, A.A., Wermer, M., Molyneux, A., Clarke, M., Van Gijn, J. and Rinkel, G. (2005) Endovascular coiling versus neurosurgical clipping for patients with aneurysmal subarachnoid hemorrhage. Cochrane Database of Systematic Reviews, October 19.
[6]	Ghogawala Z, S.J. and Ogilvy, C.S. (1996) Distal basilar perforator artery aneurysm: Case report. Neurosurgery, 39, 393-396. doi:10.1097/00006123-199608000-00034
[7]	Mathieson CS, B.P., Jenkins, S. and Hanzely, Z. (2010) An unusual case of spontaneous subarachnoid hemorrhage—a ruptured aneurysm of a basilar perforator artery. British Journal of Neurosurgery, 24, 291-293. doi:10.3109/02688690903572095
[8]	Sanchez-Mejia RO, L.M. (2007) Distal aneurysms of basilar perforating and circumferential arteries. Report of three cases. Journal of Neurosurgery, 107, 654-659. doi:10.3171/JNS-07/09/0654
[9]	Wanke, I. and Forsting, M. (2008) Stents for intracranial wide-necked aneurysms: More than mechanical protection. Neuroradiology, 50, 991-998. doi:10.1007/s00234-008-0460-0
[10]	Aenis, M., et al. (1997) Modeling of flow in a straight stented and nonstented side wall aneurysm model. Journal of Biomechanical Engineering, 119, 206-212. doi:10.1115/1.2796081
[11]	Geremia, G., Haklin, M. and Brennecke, L. (1994) Embolization of experimentally created aneurysms with intravascular stent devices. American Journal of Neuroradiology, 15, 1223-1231.
[12]	Henkes, H., et al. (2004) Coil treatment of a fusiform upper basilar trunk aneurysm with a combination of “kissing” neuroform stents, TriSpan-, 3D- and fibered coils, and permanent implantation of the micro-guidewires. Neuroradiology, 46, 464-468.
[13]	Liou, T.M., Liou, S.N. and Chu, K.L. (2004) Intra-aneurysmal flow with helix and mesh stent placement across side-wall aneurysm pore of a straight parent vessel. Journal of Biomechanical Engineering, 126, 36-43. doi:10.1115/1.1644566
[14]	Sadasivan, C., et al. (2002) Angiographic quantification of contrast medium washout from cerebral aneurysms after stent placement. American Journal of Neuroradiology, 23, 1214-1221.
[15]	Wanke, I. (2008) Stents for intracranial aneurysms: indications, limits and non indications. Interventional Neuroradiologic, 14, 60-62.