Department of Otolaryngology-Head & Neck Surgery, The Ohio State University, Columbus, OH, USA.
Department of Biomedical Engineering, The Ohio State University, Columbus, OH, USA.
Ann Otol Rhinol Laryngol. 2023 Nov;132(11):1306-1313. doi: 10.1177/00034894221149242. Epub 2023 Jan 26.
Topical sinus irrigation plays a critical role in the management of sinonasal diseases. Yet, the penetration of irrigant to targeted sinuses may be highly variable and difficult to predict. Here, we investigate the use of 3D printing as a planning tool to optimize outcomes.
Eight post-operative models were 3D printed with a FormLabs Form3 printer based on individual CT scans. Irrigations were performed and video recorded with a squeeze bottle attached via silicon water-tight seal, in 4 head positions: 45° to-the-side, 90° to-the-side, 45° forward and 45° to-the-side, and 90° forward, with irrigation fluid entering the upper (conventional) or lower (backfill) nostrils.
Significant individual variations were observed in sinus penetration as a function of head position. In general, the maxillary sinus was the easiest to irrigate in most head positions ( < .05), followed by frontal and ethmoid, with sphenoid being the most difficult. Both the 90°-to-the-side and the 90°-forward positions were significantly more effective than the others ( < .05), with 90°-forward better for frontal sinuses and 90°-to-the-side superior for all other sinuses. The backfill was significantly superior to conventional technique in head positions involving a side tilt ( < .05).
Variations in technique and position significantly impacted irrigation outcome. Backfill irrigation that pushes fluid against gravity to pool around the ostium, seems to provide overall better outcomes. This study demonstrates the advantage of 3D printing as a rapid planning tool to guide irrigation strategies.
鼻腔冲洗在鼻腔鼻窦疾病的治疗中起着关键作用。然而,灌洗液渗透到目标鼻窦的程度可能变化很大,难以预测。在这里,我们研究了使用 3D 打印作为规划工具来优化结果。
根据个人 CT 扫描,使用 FormLabs Form3 打印机对 8 个术后模型进行 3D 打印。使用附在硅密封水密密封上的挤压瓶进行冲洗,并在 4 个头位进行视频记录:向侧 45°、向侧 90°、向前 45°和向侧 45°,以及向前 90°,冲洗液从上部(常规)或下部(回流)鼻孔进入。
观察到头位变化对窦腔渗透有显著的个体差异。一般来说,上颌窦在大多数头位( < .05)最容易冲洗,其次是额窦和筛窦,蝶窦最难冲洗。90°向侧位和 90°向前位均明显优于其他位( < .05),90°向前位对额窦更有效,90°向侧位对其他窦更有效。在涉及侧倾的头位中,回流比传统技术( < .05)更有效。
技术和位置的变化对冲洗效果有显著影响。回流冲洗可使流体逆重力推动,在窦口周围聚集,似乎提供了更好的总体效果。本研究证明了 3D 打印作为指导冲洗策略的快速规划工具的优势。
