Optical imaging with a high-resolution microendoscope to identify sinonasal pathology

• Published in: American journal of otolaryngology Vol. 39; no. 4; pp. 383 - 387
• Main Authors: Kidwai, Sarah M., Parasher, Arjun K., Schorn, Victor J., Demicco, Elizabeth G., Richards-Kortum, Rebecca, Iloreta, Alfred Marc, Govindaraj, Satish, Miles, Brett A.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 01.07.2018; Elsevier Limited
• Subjects: Accuracy; Contrast agents; Cytoplasm; Differentiation; Endoscopy; Epithelium; Feasibility studies; Health surveillance; High resolution; Image resolution; Inflammation; Inflammatory polyp; Inverted papilloma; Medical imaging; Morphology; Mucosa; Nose and paranasal sinuses; Nuclei; Nuclei (cytology); Optical imaging; Papilloma; Pathology; Polyps; Real time; Rhinology; Separation; Sinuses; Staining; Stains; Surgery; Tumors; Visualization; Inflammatory polyp; Rhinology; Inverted papilloma; Optical imaging; Nose and paranasal sinuses
• ISSN: 0196-0709; 1532-818X; 1532-818X
• DOI: 10.1016/j.amjoto.2018.03.025

High-resolution microendoscopy (HRME) is an optical imaging modality that allows real time imaging of epithelial tissue and structural changes within. We hypothesize that HRME, using proflavine, a contrast agent that preferentially stains cell nuclei and allows detection of cellular morphologic changes, can distinguish sinonasal pathology from uninvolved mucosa, potentially enabling real-time surgical margin differentiation. Ex vivo imaging of histopathologically confirmed samples of sinonasal pathology and uninvolved, normal sinus epithelium. Single tertiary-level institution. Five inverted papillomas, one oncocytic papilloma, two uninvolved sinus epithelia specimens, and three inflammatory polyps were imaged ex vivo with HRME after surface staining with proflavine. Following imaging, the specimens were submitted for hematoxylin and eosin staining to allow histopathological correlation. Results show that sinonasal pathology and normal sinus epithelia have distinct HRME imaging characteristics. Schneiderian papilloma specimens show increased nuclear-to-cytoplasmic ratio, nuclear crowding, and small internuclear separation, whereas normal sinus epithelia specimens show small, bright nuclei with dark cytoplasm and relatively large internuclear separation. Inflammatory polyps, however, have varying imaging characteristics, that resemble both Schneiderian papilloma and normal sinus epithelia. This study demonstrates the feasibility of HRME imaging to discriminate sinonasal pathology from normal sinus epithelia. While the system performed well in the absence of inflammation, discrimination of inflamed tissue was inconsistent, creating a significant limitation for this application. Novel imaging systems such as HRME with alternative contrast agents may assist with real-time surgical margin differentiation, enabling complete surgical resection of inverted papilloma and reducing recurrence rates.