Microvascular Insights Into Hyaluronic Acid Filler Dispersal Within an Artificial Model of Arterial Embolism.

IF 3 2区医学 Q1 SURGERY

Aesthetic Surgery Journal Pub Date : 2025-08-09 DOI:10.1093/asj/sjaf155

Danny J Soares, Shoshana Trudel, Robyn Siperstein, Thomas J Kean, Alec D McCarthy

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引用次数: 0

Abstract

Background: Hyaluronic acid (HA) filler-induced vascular occlusion is a serious complication in aesthetic medicine, yet the microvascular behavior of HA gels under physiologically relevant flow conditions remains poorly characterized.

Objectives: To evaluate the embolic fragmentation, dispersal, and occlusive behavior of five commercially available HA fillers within a physiologically calibrated microvascular perfusion model.

Methods: Five HA fillers were tested using a modified PULSAR system incorporating a branched microtubular adapter (200-1000 µm channels) with physiologic arterial flow parameters. Products were injected via 22G and 27G microcannulas and assessed for occlusion patterns, fragment morphology, and particle size. Flow dynamics were recorded via videography and fragment characteristics were analyzed using imaging software. Statistical comparisons were conducted across products and cannula gauges.

Results: HA gels fragmented extensively into microparticles (mean area = 0.140 mm²; IQR: 0.024-0.254 mm²) generating high rates of occlusion predominantly in channels ≤ 300 µm (p < 0.0001). 22G injection produced larger particles and higher occlusion rates than 27G (31% vs. 17%, p = 0.025), most notably with large particle, high-elasticity products. Fragment morphology varied with rheology: solid gels fractured into ovoid embolic particles, while soft, high-tan δ gels formed filamentous, non-occlusive strands. Across all products, particle size was lower in the microvascular simulation compared to prior macrovascular experiments, indicating vessel-caliber-dependent fragmentation.

Conclusions: HA fillers behave as deformable embolic particles that disperse distally under physiologic microtubular conditions. These findings support a concurrent microembolic mechanism underlying filler-induced ischemia. Product rheology, cannula gauge, and vascular anatomy are important determinants of embolic particle behavior.

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人造动脉栓塞模型中透明质酸填充物分散的微血管研究。

背景：透明质酸（HA）填充物引起的血管闭塞是美容医学中一个严重的并发症，然而，HA凝胶在生理相关流动条件下的微血管行为仍然缺乏表征。目的：在生理校准的微血管灌注模型中评估五种市售HA填充剂的栓塞破裂、分散和闭塞行为。方法：采用改进的PULSAR系统对5种HA填充物进行测试，该系统采用带有生理动脉血流参数的分支微管适配器（200-1000 µm通道）。产品通过22G和27G微管注射，并评估闭塞模式、碎片形态和颗粒大小。通过摄像记录血流动力学，并用成像软件分析碎片特征。对产品和插管计进行了统计比较。结果：透明质酸凝胶广泛破碎成微粒(平均面积= 0.140 mm²；IQR: 0.024-0.254 mm²)，主要在≤300 µm的通道中产生高遮挡率（p < 0.0001）。22G注射比27G注射产生更大的颗粒和更高的闭塞率（31%比17%，p = 0.025），最明显的是大颗粒，高弹性产品。碎片形态随流变性而变化：固体凝胶断裂成卵形栓塞颗粒，而柔软的高棕褐色 δ凝胶形成丝状，不闭塞的链。在所有产品中，微血管模拟的颗粒尺寸比先前的大血管实验要小，这表明血管直径依赖于碎片。结论：透明质酸填充物表现为可变形的栓塞颗粒，在生理微管条件下向远端分散。这些发现支持了填充物引起的缺血的并发微栓塞机制。产品流变学，导管测量和血管解剖是栓塞颗粒行为的重要决定因素。

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

Aesthetic Surgery Journal SURGERY-

CiteScore

6.20

自引率

20.70%

发文量

309

审稿时长

6-12 weeks

期刊介绍： Aesthetic Surgery Journal is a peer-reviewed international journal focusing on scientific developments and clinical techniques in aesthetic surgery. The official publication of The Aesthetic Society, ASJ is also the official English-language journal of many major international societies of plastic, aesthetic and reconstructive surgery representing South America, Central America, Europe, Asia, and the Middle East. It is also the official journal of the British Association of Aesthetic Plastic Surgeons, the Canadian Society for Aesthetic Plastic Surgery and The Rhinoplasty Society.