Remodeling of a Cell-Free Vascular Graft with Nanolamellar Intima into a Neovessel
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Authors
Wang, Zihao
Liu, Chungeng
Xiao, Yi
Gu, Xiang
Xu, Yin
Dong, Nianguo
Zhang, Shengmin
Qin, Qinghua
Wang, Jianglin
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American Chemical Society
Abstract
Advances in cardiovascular materials have
brought us improved artificial vessels with larger diameters
for reducing adverse responses that drive acute thrombosis
and the associated complications. Nonetheless, the
challenge is still considerable when applying these
materials in small-diameter blood vessels. Here we report
the biomimetic design of an acellular small-diameter
vascular graft with specifically lamellar nanotopography
on the luminal surface via a modified freeze-cast technique.
The experimental findings verify that the well-designed
nanolamellar structure is able to inhibit the adherence and
activation of platelets, induce oriented growth of
endothelial cells, and eventually remodel a neovessel to
maintain long-term patency in vivo. Furthermore, the results of numerical simulations in physically mimetic conditions
reveal that the regularly lamellar nanopattern can manipulate blood flow to reduce the flow disturbance compared with
random topography. Our current work not only creates a freeze-cast small-diameter vascular graft that employs
topographic architecture to direct the vascular cell fates for revasculature but also rekindles confidence in biophysical cues
for modulating in situ tissue regeneration.
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ACS Nano
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Restricted until
2099-12-31