Fibrinogen and Vascular Smooth Muscle Cell Grafts Promote Healing of Experimental Aneurysms Treated by Embolization

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Stroke. 1999;30:1657-1664

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	Animal models of human disease
	Smooth muscle proliferation and differentiation
	Cerebral Aneurysm, AVM, & Subarachnoid hemorrhage
	Gene therapy

(Stroke. 1999;30:1657-1664.)
© 1999 American Heart Association, Inc.

Original Contributions

Jean Raymond, MD; Anne Cécile Desfaits, PhD Daniel Roy, MD

Correspondence to Dr Jean Raymond, Centre de recherche du CHUM and Radiology Department, University of Montreal Medical Center, Hôpital Notre-Dame, 1560 Sherbrooke St E, Montreal, Québec, H2L 4 M1, Canada. E-mail: notredame.radiologie{at}ibm.net

Background and Purpose—Residual necks and recurrences frequentlyoccur after endovascular treatment of cerebral aneurysms. Additionof fibrinogen and vascular smooth muscle cells (VSMCs) to theembolic material may promote healing of embolized aneurysmsby increasing neointima formation at the neck.

Methods—Bilateral carotid aneurysms were constructed withvenous pouches in 31 dogs. Aneurysms were packed intraoperativelywith bare Gelfoam sponges, sponges treated with fibrinogen,or fibrinogen sponges seeded with the animal's own VSMCs orperipheral blood mononuclear cells. Animals were killed afterangiography at 3 weeks, and morphometric studies were performedto measure the thickness of the neointima at the neck of treatedlesions. Angiographic results and mean thickness of neointimaswere compared using ANOVA. In 8 animals, 1 aneurysm was embolized withsponge seeded with VSMCs transduced by adenoviral infectionto express a fluorescent protein (green fluorescent protein),and gene expression was monitored for 4, 7, 14, and 21 days byfluorescent microscopy.

Results—Aneurysms treated with sponges seeded with VSMCs hadsignificantly thicker neointimas and were more completely obliteratedat 3 weeks than control aneurysms treated with fibrinogen sponges.Peripheral blood mononuclear cells could not reproduce thesefindings. Sponges treated with fibrinogen alone promoted formationof a thicker neointima than bare sponges. Transduced cells transplanted intoin vivo aneurysms still expressed green fluorescent proteinat 3 weeks.

Conclusions—VMSC grafts can improve healing of experimental aneurysmstreated by embolization. Transplantation of cells transducedto express a foreign gene opens the way for in situ gene therapyfor cerebral aneurysms.

Editorial Comment

J. Paul Muizelaar, MD, PhD, Guest Editor

Department of Neurosurgery, University of California, Davis, Sacramento, California

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