Ajose-Popoola Olubunmi, Su Erica, Hamamoto Ashley, Wang Alex, Jing Joseph C, Nguyen Tony D, Chen Jason J, Osann Kathryn E, Chen Zhongping, Ahuja Gurpreet S, Wong Brian J F
Department of Otolaryngology-Head and Neck Surgery, University of California-Irvine, Irvine, California, U.S.A.
Beckman Laser Institute, University of California-Irvine, Irvine, California, U.S.A.
Laryngoscope. 2017 Jan;127(1):64-69. doi: 10.1002/lary.26241. Epub 2016 Aug 25.
OBJECTIVES/HYPOTHESIS: Current imaging modalities lack the necessary resolution to diagnose subglottic stenosis. The aim of this study was to use optical coherence tomography (OCT) to evaluate nascent subglottic mucosal injury and characterize mucosal thickness and structural changes using texture analysis in a simulated intubation rabbit model.
Prospective animal study in rabbits.
Three-centimeter-long sections of endotracheal tubes (ETT) were endoscopically placed in the subglottis and proximal trachea of New Zealand White rabbits (n = 10) and secured via suture. OCT imaging and conventional endoscopic video was performed just prior to ETT segment placement (day 0), immediately after tube removal (day 7), and 1 week later (day 14). OCT images were analyzed for airway wall thickness and textural properties.
Endoscopy and histology of intubated rabbits showed a range of normal to edematous tissue, which correlated with OCT images. The mean airway mucosal wall thickness measured using OCT was 336.4 μm (day 0), 391.3 μm (day 7), and 420.4 μm (day 14), with significant differences between day 0 and day 14 (P = .002). Significance was found for correlation and homogeneity texture features across all time points (P < .05).
OCT is a minimally invasive endoscopic imaging modality capable of monitoring progression of subglottic mucosal injury. This study is the first to evaluate mucosal injury during simulated intubation using serial OCT imaging and texture analysis. OCT and texture analysis have the potential for early detection of subglottic mucosal injury, which could lead to better management of the neonatal airway and limit the progression to stenosis.
NA Laryngoscope, 127:64-69, 2017.
目的/假设:目前的成像方式缺乏诊断声门下狭窄所需的分辨率。本研究的目的是使用光学相干断层扫描(OCT)来评估新生的声门下黏膜损伤,并在模拟插管兔模型中通过纹理分析来表征黏膜厚度和结构变化。
对兔进行前瞻性动物研究。
将3厘米长的气管内导管(ETT)经内镜放置在新西兰白兔(n = 10)的声门下和气管近端,并通过缝合固定。在放置ETT节段之前(第0天)、拔管后立即(第7天)和1周后(第14天)进行OCT成像和传统内镜视频检查。对OCT图像进行气道壁厚度和纹理特性分析。
插管兔的内镜检查和组织学检查显示组织范围从正常到水肿,这与OCT图像相关。使用OCT测量的平均气道黏膜壁厚度在第0天为336.4μm,第7天为391.3μm,第14天为420.4μm,第0天和第14天之间存在显著差异(P = 0.002)。在所有时间点均发现相关性和同质性纹理特征具有统计学意义(P < 0.05)。
OCT是一种微创内镜成像方式,能够监测声门下黏膜损伤的进展。本研究首次使用连续OCT成像和纹理分析评估模拟插管期间的黏膜损伤。OCT和纹理分析有潜力早期检测声门下黏膜损伤,这可能导致对新生儿气道的更好管理并限制狭窄的进展。
NA 《喉镜》,2017年,第127卷,第64 - 69页