Maguluri Gopi, Grimble John, Mujat Mircea, Park Jesung, Caron Aliana, Iftimia Nicusor
Physical Sciences, Inc., Andover, MA, USA.
Transl Biophotonics. 2022 Aug;4(3). doi: 10.1002/tbio.202200002. Epub 2022 Jun 5.
Noninvasive assessment of skin lesions, especially of basal cell carcinoma (BCC), has benefited more recently from the use of optical imaging techniques such as optical coherence tomography (OCT) and reflectance confocal microscopy (RCM). While RCM provides submicron scale resolution and thus enables identification of skin morphological changes of the skin, with the downside of limited penetration depth, OCT imaging of the same lesion brings the benefit of better resolving its depth of invasion. OCT and RCM can be used either individually or combined within the same instrument for the noninvasive diagnosis of nonmelanoma skin cancers (NMSCs). Their combined use has shown to provide certain benefits such as better characterization of the lesion's margins, both in depth and laterally, as well as improved sensitivity and specificity, as previously demonstrated by our team. In this paper we report a new "fiber-based" implementation of the second-generation RCM-OCT hand-held probe. The fiber-based implementation of both imaging modalities enabled the construction of a smaller footprint/lower weight hand-held probe. Its preliminary evaluation on the skin of healthy volunteers is reported here, demonstrating improved capabilities for resolving sub-cellular structures and image skin morphology with micron-scale resolution to a higher depth than in the previous implementation, while also enabling the construction of angiography maps showing vascular remodeling.
皮肤病变的无创评估,尤其是基底细胞癌(BCC)的无创评估,最近受益于光学相干断层扫描(OCT)和反射式共聚焦显微镜(RCM)等光学成像技术的应用。虽然RCM提供亚微米级分辨率,从而能够识别皮肤的形态变化,但缺点是穿透深度有限,而对同一病变进行OCT成像则有助于更好地分辨其浸润深度。OCT和RCM可单独使用,也可在同一仪器中联合使用,用于非黑色素瘤皮肤癌(NMSC)的无创诊断。如我们团队之前所证明的,它们的联合使用已显示出一定的优势,如能更好地在深度和横向对病变边缘进行特征描述,以及提高敏感性和特异性。在本文中,我们报告了第二代RCM-OCT手持式探头的一种新的“基于光纤”的实现方式。两种成像模式基于光纤的实现方式使得能够构建更小尺寸/更轻重量的手持式探头。本文报道了其在健康志愿者皮肤上的初步评估,结果表明它在分辨亚细胞结构和以微米级分辨率成像皮肤形态方面具有更高的能力,深度比之前的实现方式更深,同时还能够构建显示血管重塑的血管造影图。