Endovascular treatment of aneurysms: gene expression of neointimal cells recruited on the embolic agent and evolution with recurrence in an experimental model.

Purpose: The authors attempted to identify genes associated with healing or recurrence after embolization in an aneurysm model in which neointima formation at the neck varies according to flow zones. A better understanding of the relationship between blood flow, molecular events, and healing or recurrence may provide future avenues to improve results of endovascular treatment of aneurysms.

Methods: Bilateral carotid venous pouch aneurysms were constructed in 36 dogs and embolized with gelatin sponges. Angiography and pathological studies were performed at T0 and/or 3 weeks (n=22). Angiographic results and neointima formation were scored using a qualitative index applied to the distal (inflow) and proximal (outflow) zones of the neck. In 14 animals, mRNA expression 1 to 14 days after embolization at the proximal or distal segment of the sponge was analyzed by RT-PCR, attempting to correlate flow zones, gene expression, and neointima formation.

Results: Aneurysms recurred at 3 weeks, as shown by significantly worse angiographic scores as compared to T0 (P<.01). Neointimal scores differed at pathology, with a more complete neointima at the proximal as compared to the distal aspect of the sponge at 3 weeks (P=.027). Embolization was followed by migration of CD31+, CD14+, smooth muscle alpha-actin+ (SMA+) cells that progressively expressed metalloproteinases (MMP-9,-12,-14), but stable or lesser, retarded expression of inhibitors (TIMP1-4). Growth factors (PDGF-BB, TGF-beta1, TNF-alpha, MCP-1 and Ang-1) were expressed at increasing levels, maximal at 7 to 14 days. Differences between distal and proximal zones were limited to increased expression of MMP-2 proximally (P<.035).

Conclusion: Gene expression after embolization is compatible with patterns associated with neointima formation. The authors have not identified key factors involved in recurrence.