Injectable chitosan hydrogel effectively controls lesion growth in a venous malformation murine model.

IF 4.9 2区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Diagnostic and Interventional Imaging Pub Date : 2024-08-02 DOI:10.1016/j.diii.2024.07.004

Ha-Long Nguyen, Ricardo Holderbaum Do Amaral, Sophie Lerouge, An-Katrien De Roo, Fatemeh Zehtabi, Miikka Vikkula, Gilles Soulez

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引用次数: 0

Abstract

Purpose: The purpose of this study was to evaluate the safety and efficacy of intralesional injection of chitosan hydrogel (CH) combined with sodium tetradecyl sulfate (STS) to sclerose and embolize venous malformations (VMs) by comparison with 3% STS foam and placebo in a mouse model.

Materials and methods: Subcutaneous VMs were created by injecting HUVEC_TIE2-L914F cells, mixed with matrigel, into the back of athymic mice (Day [D] 0). After VM-like lesions were established at D10, 70 lesions were randomly assigned to one of six treatment groups (untreated, saline, 3% STS-foam, CH, 1% STS-CH, 3% STS-CH). For 3% STS-foam, the standard Tessari technique was performed. VMs were regularly evaluated every 2-3 days to measure lesion size until the time of collection at D30 (primary endpoint). At D30, VM lesions including the matrigel plugs were culled and evaluated by histological analysis to assess vessel size, chitosan distribution and endothelial expression. One-way analysis of variance (ANOVA) test was performed to compare quantitative variables with normal distribution, otherwise Kruskal-Wallis test followed by pairwise comparisons by a Wilcoxon rank sum test was performed.

Results: All VMs were successfully punctured and injected. Six VMs injected with 3% STS-CH showed early skin ulceration with an extrusion of the matrigel plug and were excluded from final analysis. In the remaining 64 VMs, skin ulceration occurred on 26 plugs, resulting in the loss of three 3% STS-foam and one 1% STS-CH plugs. Both chitosan formulations effectively controlled growth of VMs by the end of follow-up compared to untreated or 3% STS-foam groups (P < 0.05). Vessel sizes were smaller with both CH formulations compared to untreated and saline groups (P < 0.05). Additionally, there were smaller vascular channels within the 1% STS-CH group compared to the 3% STS-foam group (P < 0.05).

Conclusion: Chitosan's ability to control the growth of VMs suggests a promising therapeutic effect that outperforms the gold standard (STS-foam) on several variables.

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可注射壳聚糖水凝胶能有效控制小鼠静脉畸形模型中病灶的生长。

目的：本研究的目的是通过在小鼠模型中与 3% STS 泡沫和安慰剂进行比较，评估鞘内注射壳聚糖水凝胶（CH）结合十四烷基硫酸钠（STS）硬化和栓塞静脉畸形（VMs）的安全性和有效性：将混合了 Matrigel 的 HUVEC_TIE2-L914F 细胞注射到无胸腺小鼠背部（第 [D] 0 天），形成皮下 VM。VM样病变在D10建立后，70个病变被随机分配到六个处理组（未处理组、生理盐水组、3% STS-泡沫组、CH组、1% STS-CH组、3% STS-CH组）中的一个。对于 3% STS-泡沫，采用标准的 Tessari 技术。每隔 2-3 天对血管瘤进行一次定期评估，以测量病变大小，直至 D30（主要终点）收集数据。在 D30 时，剔除包括 matrigel 塞在内的血管瘤病变，并通过组织学分析评估血管大小、壳聚糖分布和内皮表达。对正态分布的定量变量进行单因素方差分析（ANOVA）检验，否则进行Kruskal-Wallis检验，然后用Wilcoxon秩和检验进行配对比较：所有血管瘤均成功穿刺和注射。6个注射了3% STS-CH的虚拟器官出现早期皮肤溃疡，matrigel塞子被挤出，被排除在最终分析之外。在其余 64 个虚拟器官中，有 26 个塞子出现皮肤溃烂，导致 3 个 3% STS 发泡剂塞子和 1 个 1% STS-CH 塞子脱落。与未处理组或 3% STS 发泡剂组相比，两种壳聚糖制剂都能在随访结束时有效控制血管瘤的生长（P < 0.05）。与未处理组和生理盐水组相比，两种壳聚糖配方的血管尺寸都较小（P < 0.05）。此外，与 3% STS 发泡剂组相比，1% STS-CH 组的血管通道更小（P < 0.05）：壳聚糖具有控制血管瘤生长的能力，这表明它具有良好的治疗效果，在多个变量上都优于金标准（STS-泡沫）。

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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来源期刊

Diagnostic and Interventional Imaging Medicine-Radiology, Nuclear Medicine and Imaging

CiteScore

8.50

自引率

29.10%

发文量

126

审稿时长

11 days

期刊介绍： Diagnostic and Interventional Imaging accepts publications originating from any part of the world based only on their scientific merit. The Journal focuses on illustrated articles with great iconographic topics and aims at aiding sharpening clinical decision-making skills as well as following high research topics. All articles are published in English. Diagnostic and Interventional Imaging publishes editorials, technical notes, letters, original and review articles on abdominal, breast, cancer, cardiac, emergency, forensic medicine, head and neck, musculoskeletal, gastrointestinal, genitourinary, interventional, obstetric, pediatric, thoracic and vascular imaging, neuroradiology, nuclear medicine, as well as contrast material, computer developments, health policies and practice, and medical physics relevant to imaging.