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- Title
A Novel Sirolimus-eluting Biodegradable Magnesium-based Alloy Scaffold: Six-month Results In Porcine Peripheral Arteries.
- Authors
Xin-Nong Liu; Cheng-Jia Qu; Yong-Bao Zhang; Jie Fang; Le-Qun Teng; Xiang-Yu Zhang; Chen-Yang Shen; Liu, Xin-Nong; Qu, Cheng-Jia; Zhang, Yong-Bao; Fang, Jie; Teng, Le-Qun; Zhang, Xiang-Yu; Shen, Chen-Yang
- Abstract
<bold>Purpose: </bold>Magnesium-based alloy scaffold is a promising biodegradable stent due to its intrinsic mechanical performance and biocompatibility. Based on our preliminary experiments, we designed a novel sirolimus-eluting magnesium-based alloy scaffold. This work aimed to assess its safety and degradation performance in vivo.<bold>Methods: </bold>The scaffolds were implanted in the lower limb arteries of Bama mini-pigs. Safety was defined as no immediate thrombosis or >30% residual stenosis, which was assessed with optical coherence tomography and digital subtraction angiography. Blood biochemical analyses were performed to evaluate hepatorenal toxicity. The degradation process of the scaffolds, the endothelialization, and lumen loss of the stented-vessels were detected with scanning electron microscopy, immunohistochemical, hematoxylin-eosin staining and optical coherence tomography.<bold>Results: </bold>Twenty-four scaffolds were successfully implanted in six pigs with no signs of immediate thrombosis or >30% residual stenosis. The scaffolds were covered by endothelium at one month and absolutely resorbed at six months post implantation. Blood analysis showed that the hepatorenal function except for alanine aminotransferase and γ-glutamyl transpeptidase was normal. Obvious intimal hyperplasia and lumen loss were found in the stented vessels at three months, while the diameters and inner lumen areas of stented segments had increased significantly at six months (p.
- Subjects
ALABAMA; DIGITAL subtraction angiography; OPTICAL coherence tomography; ARTERIES; ALLOYS; BLOOD testing
- Publication
Clinical & Investigative Medicine, 2021, Vol 44, Issue 1, pE28
- ISSN
0147-958X
- Publication type
journal article
- DOI
10.25011/cim.v44i1.35292