# Universal in vivo Textural Model for Human Skin based on Optical   Coherence Tomograms

**Authors:** Saba Adabi, Matin Hosseinzadeh, Shahryar Noei, Steven Daveluy, Anne, Clayton, Darius Mehregan, Silvia Conforto, Mohammadreza Nasiriavanaki

arXiv: 1706.02758 · 2018-01-30

## TL;DR

This paper develops a universal in vivo skin model using OCT images, analyzing 63 features to objectively differentiate between healthy and diseased skin, including BCC and SCC, aiding clinical diagnosis.

## Contribution

It introduces a comprehensive computational model based on optical and textural features from OCT images for skin disease diagnosis, addressing variability across body sites.

## Key findings

- Successfully differentiates BCC and SCC from healthy tissue
- Provides objective support for clinical decision-making
- Demonstrates robustness across different skin sites

## Abstract

Currently, diagnosis of skin diseases is based primarily on visual pattern recognition skills and expertise of the physician observing the lesion. Even though dermatologists are trained to recognize patterns of morphology, it is still a subjective visual assessment. Tools for automated pattern recognition can provide objective information to support clinical decision-making. Noninvasive skin imaging techniques provide complementary information to the clinician. In recent years, optical coherence tomography has become a powerful skin imaging technique. According to specific functional needs, skin architecture varies across different parts of the body, as do the textural characteristics in OCT images. There is, therefore, a critical need to systematically analyze OCT images from different body sites, to identify their significant qualitative and quantitative differences. Sixty-three optical and textural features extracted from OCT images of healthy and diseased skin are analyzed and in conjunction with decision-theoretic approaches used to create computational models of the diseases. We demonstrate that these models provide objective information to the clinician to assist in the diagnosis of abnormalities of cutaneous microstructure, and hence, aid in the determination of treatment. Specifically, we demonstrate the performance of this methodology on differentiating basal cell carcinoma (BCC) and squamous cell carcinoma (SCC) from healthy tissue.

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Source: https://tomesphere.com/paper/1706.02758