Line‐field confocal optical coherence tomography as a tool for three‐dimensional in vivo quantification of healthy epidermis: A pilot study

Chauvel-Picard, J.; Bérot, V.; Tognetti, Linda; Cano, Carmen; Fontaine, Margot; Lenoir, Clément; Pérez-Ánker, Javiera; Puig, Susana; Dubois, Arnaud; Forestier, Sandra; Monnier, Jilliana; Jdid, Randa; Cazorla, Gabriel; Pedrazzani, Mélanie; Sanchez, Antoine; Fischman, Sébastien; Rubegni, Pietro; Marmol, Véronique Del; Malvehy, Josep; Cinotti, Élisa; Perrot, Jean; Suppa, Mariano

doi:10.1002/jbio.202100236

Cited by 25 publications

(38 citation statements)

References 39 publications

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“…LC-OCT permits to provide two-dimensional (2D) vertical and horizontal images as well as three-dimensional (3D) reconstructions. [7][8][9] Recent studies investigated the potential usefulness of reflectance confocal microscopy as a helpful diagnostic tool in lichen planopilaris. 10 Herein, we describe for the first time LC-OCT features of classic form of LPP.…”

Section: F I G U R Ementioning

confidence: 99%

Line‐field confocal optical coherence tomography: A new diagnostic method of lichen planopilaris

Kurzeja,

Warszawik‐Hendzel,

Rakowska

et al. 2023

Skin Research and Technology

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Section: F I G U R Ementioning

confidence: 99%

Line‐field confocal optical coherence tomography: A new diagnostic method of lichen planopilaris

Kurzeja,

Warszawik‐Hendzel,

Rakowska

et al. 2023

Skin Research and Technology

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“…13 In comparison with previously described technologies, LC-OCT provides the best tradeoff in terms of spatial resolution (∼1 µm) and deep penetration for the study of skin structures located in the dermis. [14][15][16][17] Indeed, we demonstrated in a previous study that LC-OCT can be used as a new method for the quantification of superficial dermis thickness in vivo and non-invasively. 18 Analysis of obtained images is classically performed by experts, trained to decipher such images.…”

Section: Introductionmentioning

confidence: 97%

“…Recently developed, line‐field confocal OCT (LC‐OCT) is an innovative technology combining conventional OCT and RCM 13 . In comparison with previously described technologies, LC‐OCT provides the best trade‐off in terms of spatial resolution (∼1 μm) and deep penetration for the study of skin structures located in the dermis 14–17 . Indeed, we demonstrated in a previous study that LC‐OCT can be used as a new method for the quantification of superficial dermis thickness in vivo and non‐invasively 18 …”

Section: Introductionmentioning

confidence: 99%

Utilizing deep learning for dermal matrix quality assessment on in vivo line‐field confocal optical coherence tomography images

Breugnot

Rouaud-Tinguely

Gilardeau

et al. 2022

Skin Research and Technology

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Background Line‐field confocal optical coherence tomography (LC‐OCT) is an imaging technique providing non‐invasive “optical biopsies” with an isotropic spatial resolution of ∼1 μm and deep penetration until the dermis. Analysis of obtained images is classically performed by experts, thus requiring long and fastidious training and giving operator‐dependent results. In this study, the objective was to develop a new automated method to score the quality of the dermal matrix precisely, quickly, and directly from in vivo LC‐OCT images. Once validated, this new automated method was applied to assess photo‐aging‐related changes in the quality of the dermal matrix. Materials and methods LC‐OCT measurements were conducted on the face of 57 healthy Caucasian volunteers. The quality of the dermal matrix was scored by experts trained to evaluate the fibers’ state according to four grades. In parallel, these images were used to develop the deep learning model by adapting a MobileNetv3‐Small architecture. Once validated, this model was applied to the study of dermal matrix changes on a panel of 36 healthy Caucasian females, divided into three groups according to their age and photo‐exposition. Results The deep learning model was trained and tested on a set of 15 993 images. Calculated on the test data set, the accuracy score was 0.83. As expected, when applied to different volunteer groups, the model shows greater and deeper alteration of the dermal matrix for old and photoexposed subjects. Conclusions In conclusion, we have developed a new method that automatically scores the quality of the dermal matrix on in vivo LC‐OCT images. This accurate model could be used for further investigations, both in the dermatological and cosmetic fields.

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“…8,9 Recently, LC-OCT has been introduced, which combines high resolution with a medium penetration depth, greater than RCM. 12,13 LC-OCT has been explored in previous studies to differentiate pre-malignant lesions from SCC 14,15 and to characterize and monitor BCCs. 16 To build on previous efforts to determine noninvasive KC imaging characteristics, we aimed to visualize a predefined set of prominent morphological characteristics of SCC in a well-established SCC murine model using LC-OCT.…”

Section: Introductionmentioning

confidence: 99%

“…On the contrary, OCT cannot visualize cellular morphology but permits evaluation of tumor invasiveness due to its higher penetration depth 8,9 . Recently, LC‐OCT has been introduced, which combines high resolution with a medium penetration depth, greater than RCM 12,13 . LC‐OCT has been explored in previous studies to differentiate pre‐malignant lesions from SCC 14,15 and to characterize and monitor BCCs 16 …”

Section: Introductionmentioning

confidence: 99%

Line‐field confocal optical coherence tomography for in vivo visualization of morphological characteristics of squamous cell carcinoma in a murine model

Olesen,

Foged,

Jacobsen

et al. 2023

Lasers Surg Med

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ObjectivesNon‐invasive imaging with line‐field confocal optical coherence tomography (LC‐OCT) can support the diagnosis of squamous cell carcinoma (SCC) through visualization of morphological characteristics specific to skin cancer. We aimed to visualize prominent morphological characteristics of SCC using LC‐OCT in a well‐established murine SCC model.Materials and MethodsNine hairless mice were exposed to ultraviolet radiation three times weekly for 9 months to induce SCC development. Visible SCC tumors (n = 9) were imaged with LC‐OCT and the presence of 10 well‐described morphological characteristics of SCC were evaluated in the scans by two physicians with adjudication by a third.ResultsOverall, murine morphological characteristics resembled corresponding features previously reported in human SCCs. Interrupted dermal‐epidermal junction occurred in 100% of tumors. In epidermis, the most frequently observed characteristics were severe epidermal dysplasia (100%) and tumor budding (89%). Common dermal characteristics included broad strands (100%) and collagen alterations (78%).ConclusionLC‐OCT imaging can be used to non‐invasively visualize morphological characteristics specific to SCC in an in vivo preclinical model.

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Line‐field confocal optical coherence tomography as a tool for three‐dimensional in vivo quantification of healthy epidermis: A pilot study

Cited by 25 publications

References 39 publications

Line‐field confocal optical coherence tomography: A new diagnostic method of lichen planopilaris

Line‐field confocal optical coherence tomography: A new diagnostic method of lichen planopilaris

Utilizing deep learning for dermal matrix quality assessment on in vivo line‐field confocal optical coherence tomography images

Line‐field confocal optical coherence tomography for in vivo visualization of morphological characteristics of squamous cell carcinoma in a murine model

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