University of Maryland School of Medicine, Baltimore, MD, USA.
Department of Ophthalmology and Visual Sciences, University of Maryland School of Medicine, 419 W. Redwood St., Suite 479, Baltimore, MD, 21201, USA.
Int Ophthalmol. 2023 Sep;43(9):3321-3328. doi: 10.1007/s10792-023-02736-9. Epub 2023 May 23.
We developed model eyes using six polymer materials to determine which materials were most appropriate in simulating real human sclera and extraocular muscle (EOM).
Five three-dimensional (3-D) printed polymers (FlexFill, PolyFlex, PCTPE, Soft PLA, and NinjaFlex) and one silicone material were systematically tested by board-certified ophthalmologists and senior ophthalmology residents. Material testing included scleral passes with 6-0 Vicryl sutures through each eye model. Participants completed a survey designed to collect demographic data, subjective assessment of each material's accuracy in simulating real human sclera and EOM, and a ranking for each polymer material to identify which would be most suitable for an ophthalmic surgery training tool. The Wilcoxon signed-rank test was conducted to determine if there was a statistically significant difference in the distribution of ranks between the polymer materials.
The distribution of ranks for silicone material's "sclera" and "EOM" components were statistically significantly higher than that of all other polymer materials (all p < 0.05). Silicone material received the highest rank for both "sclera" and "EOM" components. Survey results indicated that the silicone material effectively simulated real human tissue.
Silicone model eyes performed better than 3-D printed polymers as an educational tool for incorporation into a microsurgical training curriculum. Silicone models provide a low-cost teaching tool that allows for independent practice of microsurgical techniques without requiring a wet-laboratory facility.
我们使用六种聚合物材料开发了模型眼,以确定哪些材料最适合模拟真实的人巩膜和眼外肌(EOM)。
五位眼科学委员会认证的眼科医生和高级眼科住院医师系统地测试了五种三维(3-D)打印聚合物(FlexFill、PolyFlex、PCTPE、Soft PLA 和 NinjaFlex)和一种硅酮材料。材料测试包括通过每个眼球模型上的 6-0 Vicryl 缝线进行巩膜穿透。参与者完成了一项设计旨在收集人口统计学数据、主观评估每种材料在模拟真实人类巩膜和 EOM 方面的准确性以及对每种聚合物材料进行排名以确定哪种材料最适合眼科手术培训工具的调查。采用 Wilcoxon 符号秩检验来确定聚合物材料之间的排名分布是否存在统计学差异。
硅酮材料的“巩膜”和“EOM”组件的排名分布明显高于所有其他聚合物材料(均 p<0.05)。硅酮材料在“巩膜”和“EOM”组件方面的排名均最高。调查结果表明,硅酮材料有效地模拟了真实的人体组织。
与 3-D 打印聚合物相比,硅酮模型眼作为纳入显微外科培训课程的教育工具表现更好。硅酮模型提供了一种低成本的教学工具,允许在不需要湿实验室设施的情况下独立练习显微外科技术。
