Department of Ophthalmology, Federal University of São Paulo, São Paulo, Brazil.
Hospital de Olhos de Sergipe, Aracaju, Brazil.
Acta Ophthalmol. 2021 Dec;99(8):e1366-e1374. doi: 10.1111/aos.14838. Epub 2021 Apr 22.
This study aimed to quantify the amount of silicone oil (SO) released across a variety of syringe and needle models routinely used for intravitreal injection.
The release of SO was assessed in eight models of syringes, two of which were reported to be 'SO-free', and eleven models of needles with unknown SO content. To evaluate SO release within the context of anti-VEGF therapeutics, syringes were evaluated using aflibercept, bevacizumab, buffer, ziv-aflibercept and formulation buffer. All syringe tests were performed with or without agitation by flicking for syringes. Needles were evaluated without agitation only. Samples were fluorescently labelled to identify SO, and triplicate measurements were collected using imaging flow cytometry.
Seven out of 8 syringe models showed a statistically significant increase in the SO particle count after agitation. The two SO-free syringe models (HSW Norm-Ject, Daikyo Crystal Zenith) released the least SO particles, with or without agitation, whereas the BD Ultra-Fine and Saldanha-Rodrigues syringes released the most. More SO was released when the syringes were prefilled with formulation buffer than with ziv-aflibercept. Syringes filled with aflibercept and bevacizumab had intermediate levels. Agitation increased the release of SO into each of the drug solutions. Silicone oil (SO) was detected in all needles.
Agitation of the syringe by flicking leads to a substantial increase in the number of SO particles. Silicone oil (SO)-free syringes had the best performance, but physicians must also be aware that needles are siliconized and also contribute to the injection of SO into the vitreous.
本研究旨在定量评估各种常规用于玻璃体内注射的注射器和针头模型释放硅油(SO)的量。
评估了 8 种注射器模型和 11 种未知 SO 含量的针头模型中 SO 的释放情况。为了评估抗血管内皮生长因子(VEGF)治疗药物中 SO 的释放情况,使用 aflibercept、bevacizumab、缓冲液、ziv-aflibercept 和制剂缓冲液对注射器进行了评估。所有注射器测试均在有或无弹拨(flicking)搅拌的情况下进行。针头仅在无搅拌的情况下进行评估。样品用荧光标记以识别 SO,并使用成像流式细胞术收集 3 次重复测量。
7/8 的注射器模型在搅拌后 SO 粒子计数呈统计学显著增加。两种无 SO 的注射器模型(HSW Norm-Ject、Daikyo Crystal Zenith),无论是否搅拌,释放的 SO 粒子最少,而 BD Ultra-Fine 和 Saldanha-Rodrigues 注射器释放的 SO 最多。与 ziv-aflibercept 相比,预填充制剂缓冲液的注射器释放出更多的 SO。注射器填充 aflibercept 和 bevacizumab 时释放出的 SO 处于中间水平。药物溶液中的 SO 随着注射器的搅拌而增加。所有针头均检测到 SO。
通过弹拨搅拌注射器会导致 SO 粒子数量的大量增加。无 SO 注射器性能最佳,但医生还必须意识到针头也经过硅化处理,也会将 SO 注入玻璃体。
