@inproceedings{68da28cc827745b5974a2ae005a62038,
title = "Endovascular image-guided treatment of in-vivo model aneurysms with asymmetric vascular stents (AVS): Evaluation with time-density curve angiographic analysis and histology",
abstract = "In this study, we compare the results obtained from Time-Density Curve (TDC) analysis of angiographic imaging sequences with histological evaluation for a rabbit aneurysm model treated with standard stents and new asymmetric vascular stents (AVS) placed by image-guided endovascular deployment. AVSs are stents having a low-porosity patch region designed to cover the aneurysm neck and occlude blood flow inside. To evaluate the AVSs, rabbits with elastase-induced aneurysm models (n=20) were divided into three groups: the first (n=10) was treated with an AVS, the second (n=5) with a non-patch standard coronary stent, and third was untreated as a control (n=5). We used TDC analysis to measure how much contrast media entered the aneurysm before and after treatment. TDCs track contrast-media-density changes as a function of time over the region of interest in x-ray DSA cine-sequences. After 28 days, the animals were sacrificed and the explanted specimens were histologically evaluated. The first group showed an average reduction of contrast flow into the aneurysm of 95% after treatment with an AVS with fully developed thrombus at 28 days follow-up. The rabbits treated with standard stents showed an increase in TDC residency time after treatment and partial-thrombogenesis. The untreated control aneurysms displayed no reduction in flow and were still patent at follow-up. The quantitative TDC analysis findings were confirmed by histological evaluation suggesting that the new AVS has great potential as a definitive treatment for cerebro-vascular aneurysms and that angiographic TDC analysis can provide in-vivo verification.",
keywords = "Angiographic time-density curves, Asymmetric vascular stent, Elastase rabbit model, Histology",
author = "A. Dohatcu and Ionita, {C. N.} and A. Paciorek and Bednarek, {D. R.} and Hoffmann, {K. R.} and S. Rudin",
year = "2008",
doi = "10.1117/12.769504",
language = "English (US)",
isbn = "9780819471000",
series = "Progress in Biomedical Optics and Imaging - Proceedings of SPIE",
booktitle = "Medical Imaging 2008 - Physiology, Function, and Structure from Medical Images",
note = "Medical Imaging 2008 - Physiology, Function, and Structure from Medical Images ; Conference date: 17-02-2008 Through 19-02-2008",
}