Three‐dimensional multispectral facial imaging to monitor actinic damage treated with 5‐fluorouracil

Joachim Torrano; Matt Hishon; Mitchell Robinson; Anthony Raphael; Jason Wu; Brigid Betz‐Stablein; Daisy Kopera; Hans Peter Soyer; Helmut Schaider

doi:10.1002/jvc2.122

JEADV Clinical Practice (Jun 2023)

Three‐dimensional multispectral facial imaging to monitor actinic damage treated with 5‐fluorouracil

Joachim Torrano,
Matt Hishon,
Mitchell Robinson,
Anthony Raphael,
Jason Wu,
Brigid Betz‐Stablein,
Daisy Kopera,
Hans Peter Soyer,
Helmut Schaider

Affiliations

Joachim Torrano: Dermatology Research Centre, The Frazer Institute The University of Queensland Brisbane Australia
Matt Hishon: Dermatology Department Princess Alexandra Hospital Brisbane Australia
Mitchell Robinson: Dermatology Department Princess Alexandra Hospital Brisbane Australia
Anthony Raphael: Dermatology Research Centre, The Frazer Institute The University of Queensland Brisbane Australia
Jason Wu: Dermatology Department Princess Alexandra Hospital Brisbane Australia
Brigid Betz‐Stablein: Dermatology Research Centre, The Frazer Institute The University of Queensland Brisbane Australia
Daisy Kopera: Department of Dermatology Medical University of Graz Graz Austria
Hans Peter Soyer: Dermatology Research Centre, The Frazer Institute The University of Queensland Brisbane Australia
Helmut Schaider: Dermatology Research Centre, The Frazer Institute The University of Queensland Brisbane Australia

DOI: https://doi.org/10.1002/jvc2.122
Journal volume & issue: Vol. 2, no. 2
pp. 273 – 281

Abstract

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Abstract Background Standardised therapeutic monitoring of field skin cancerisation is challenging. 5‐fluorouracil (5‐FU) is a common topical therapy for ultraviolet radiation (UV) and actinic keratosis (AK) but is often accompanied with adverse side effects. Monitoring of patients following treatment can be improved with novel imaging technologies. Objectives This case series used new, improved facial imaging technology in assessing topical 5‐FU treatment for actinic damage. Methods A case series followed 18 participants treated with topical 5‐FU over 2 weeks, with facial imaging at baseline, at the end of treatment and at Week 12 posttreatment. Skin characteristics were automatically measured across selected treatment areas using the VISIA three‐dimensional (3D) multispectral facial imaging system. Results VISIA analysis recorded sharp increases in erythema, UV‐spots and skin roughness at Week 2 followed by reduction of erythema, UV‐spots and skin roughness at 12 weeks posttreatment compared to baseline. Skin hyper‐ and hypopigmentation was observed across treatment areas at Week 2 returning to baseline levels by Week 12. Participants demonstrated improved skin texture indicating smoother skin and significantly diminished UV‐spots. Conclusions 3D, multispectral facial imaging can facilitate topical treatment monitoring of field cancerisation. 5‐FU treatment of field cancerisation as observed in VISIA images and data are consistent with clinical experience. 3D, multispectral imaging was efficient, noninvasive and objective in monitoring treatment of actinic damage, for example, by measurement of erythema as a surrogate marker for inflammation. For clinical trials of new treatment modalities for facial photodamage and field cancerisation, 3D multispectral imaging features new tools for analysis of skin characteristics, including objective quantification of erythema, skin texture, UV‐spots and other inflammation‐related changes triggered by 5‐FU treatment.

Published in JEADV Clinical Practice

ISSN: 2768-6566 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Dermatology; Medicine: Internal medicine: Specialties of internal medicine: Diseases of the genitourinary system. Urology
Website: https://onlinelibrary.wiley.com/journal/27686566

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