| Literature DB >> 28877393 |
Hualong Bai1,2,3,4, Haidi Hu2,3, Jianming Guo2,3, Maryam Ige2,3, Tun Wang2,3, Toshihiko Isaji2,3, Tambudzai Kudze2,3, Haiyang Liu2,3, Bogdan Yatsula2,3, Takuya Hashimoto2,3, Ying Xing1, Alan Dardik2,3,5.
Abstract
Polyester is commonly used in vascular surgery for patch angioplasty and grafts. We hypothesized that polyester patches heal by infiltration of arterial or venous progenitor cells depending on the site of implantation. Polyester patches were implanted into the Wistar rat aorta or inferior vena cava and explanted on day 7 or 30. Neointima that formed on polyester patches was thicker in the venous environment compared to the amount that formed on patches in the arterial environment. Venous patches had more cell proliferation and greater numbers of VCAM-positive and CD68-positive cells, whereas arterial patches had greater numbers of vimentin-positive and alpha-actin-positive cells. Although there were similar numbers of endothelial progenitor cells in the neointimal endothelium, cells in the arterial patch were Ephrin-B2- and notch-4-positive while those in the venous patch were Eph-B4- and COUP-TFII-positive. Venous patches treated with an arteriovenous fistula had decreased neointimal thickness; neointimal endothelial cells expressed Ephrin-B2 and notch-4 in addition to Eph-B4 and COUP-TFII. Polyester patches in the venous environment acquire venous identity, whereas patches in the arterial environment acquire arterial identity; patches in the fistula environment acquire dual arterial-venous identity. These data suggest that synthetic patches heal by acquisition of identity of their environment.Entities:
Keywords: arteriovenous fistula; endothelial cell identity; neointimal hyperplasia; patch angioplasty; polyester patch
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Year: 2017 PMID: 28877393 PMCID: PMC5918420 DOI: 10.1002/jbm.a.36193
Source DB: PubMed Journal: J Biomed Mater Res A ISSN: 1549-3296 Impact factor: 4.396