Prevention of intimal hyperplasia

Cardiovascular radiation medicine Pub Date : 2004-01-01 DOI:10.1016/j.carrad.2004.03.002

Adam B Levitt , Keith Robinson , Eric Wellons , Kin Man Lai , Jian Hua Cui , Brian Gannon , David Rosenthal

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引用次数: 6

Abstract

Objective

Endovascular brachytherapy, delivered by a variety of catheter-based devices, has proven clinically effective for the inhibition of neointimal hyperplasia (NIH) after coronary and peripheral balloon/stent angioplasty. No platform, however, has been developed to deliver low-dose radiation in concert with vascular surgical operations. The purpose of this study was to evaluate the vascular response following balloon injury to the rabbit carotid artery, with and without topical low-dose ⁴⁵Ca, applied by an external vascular “wrap”.

Methods

Twelve rabbit carotid arteries were subjected to balloon injury by embolectomy catheter. The common carotid artery was then “wrapped” circumferentially with a biostable polyurethane membrane (Nanoskin Secant Medical, Perkasie, PA), without radiation (n=6), or with radiation (n=6) (⁴⁵Ca ∼50 μCi). The animals were sacrificed at 4 weeks for histologic assessment of the treated vessels.

Results

The ⁴⁵Ca wrap inhibited NIH evidenced by trends towards reduction of intimal area (0.46±0.19 control carotid vs. 0.35±0.15 ⁴⁵Ca-treated carotid arteries; P=.11), maximal intimal thickness (0.21±0.08 vs. 0.16±0.05; P=.12), average intimal thickness (0.12±0.06 vs. 0.08±0.03; P=.08), marginally significant reduction in percent area stenosis (33±15% vs. 21±9%; P=.06) and marked neointima suppression in areas immediately adjacent to ⁴⁵Ca wrap remnants. Medial necrosis (P=.003), however, was observed slightly more for ⁴⁵Ca-treated carotid arteries versus control arteries.

Conclusion

Low-dose ⁴⁵Ca beta-radiation labeled onto a polyurethane membrane appears to inhibit NIH in an animal model.

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预防内膜增生

目的血管内近距离放射治疗，通过各种导管为基础的装置，已被证明对抑制冠状动脉和周围球囊/支架血管成形术后的新生内膜增生(NIH)有效。然而，目前还没有开发出将低剂量辐射用于血管外科手术的平台。本研究的目的是评估兔颈动脉球囊损伤后的血管反应，使用和不使用低剂量45Ca，通过外部血管“包裹”应用。方法对12只家兔颈动脉进行球囊损伤，取栓导管。然后用生物稳定的聚氨酯膜(Nanoskin Secant Medical, Perkasie, PA)将颈总动脉周向“包裹”，无辐射(n=6)或有辐射(n=6) (45Ca ~ 50 μCi)。4周时处死动物，对处理后的血管进行组织学评估。结果45Ca膜对NIH的抑制表现为颈动脉内膜面积减少(对照组0.46±0.19,45Ca膜组0.35±0.15);P= 0.11)，最大内膜厚度(0.21±0.08∶0.16±0.05;P= 0.12)，平均内膜厚度(0.12±0.06∶0.08±0.03;P= 0.08)，区域狭窄百分比略有显著降低(33±15% vs 21±9%;P=.06)，在紧邻45Ca膜残余的区域有明显的内膜抑制。然而，45ca治疗的颈动脉内侧坏死(P= 0.003)略高于对照动脉。结论低剂量45Ca β -辐射在聚氨脂膜上有抑制NIH的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cardiovascular radiation medicine

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