# Use of a 3D Model with Reconstructed Human Epidermis Infected with Fungi and Covered with a Bovine Nail to Simulate Onychomycosis and to Evaluate the Effects of Antifungal Agents

**Authors:** Francesca Giulia Urso, Salvatore Del Prete, Christelle Foucher, Martina Barberis, Francesco Carriero, Amandine Bart

PMC · DOI: 10.3390/jof11040285 · 2025-04-04

## TL;DR

A 3D model simulating fungal nail infections was developed to test antifungal products and evaluate their effects on fungal growth and nail structure.

## Contribution

A novel 3D model using reconstructed human epidermis and bovine nails to simulate onychomycosis and assess antifungal treatments.

## Key findings

- UDN and EXlor significantly reduced fungal presence compared to the control.
- UDN preserved nail structure, while EXlor and PDermP caused damage.
- The 3D model effectively differentiates antifungal product efficacy and safety.

## Abstract

An in vitro 3D model using fungus colonized Reconstructed Human Epidermis (RHE) represents an effective preclinical model to simulate the pathological conditions of onychomycosis. We evaluated the suitability of this 3D onychomycosis model and use it to assess the effects of topical products on fungus growth and nail structure. Five sets of differentiated RHE were colonized with Trichophyton rubrum and covered with bovine nails. Colonized RHE with no product application (CNA) served as the control. Four different products classified as medical devices were applied once daily on the nails: Urgo Damaged Nails (UDN), Excilor (EXlor), Poderm Purifying (PDermP), Poderm Booster (PDermB). After 5 days, T. rubrum presence was visualized by the Grott Methenamine Silver staining method and quantified as the sum signal intensity of processed acquisitions. Fungal hyphae and the nail structure were analyzed by SEM. A semi-quantitative evaluation of fungal presence showed a reduction after UDN (−34%, p < 0.001) and EXlor (−28%, p < 0.020) applications compared to CNA. No significant difference was observed after PDermP applications (−2%). The nail structure appeared preserved after UDN applications and severely damaged after EXlor and PDermP applications. These findings demonstrate significant effects of different products on fungal growth and nail structure, suggesting that this 3D model might be a valuable tool for predicting the effects of antimycotic treatment in humans.

## Linked entities

- **Diseases:** onychomycosis (MONDO:0001628)
- **Species:** Trichophyton rubrum (taxon 5551)

## Full-text entities

- **Diseases:** Onychomycosis (MESH:D014009), Fungal (MESH:D009181)
- **Chemicals:** Methenamine Silver (MESH:D008709), EXlor (-)
- **Species:** Trichophyton rubrum (species) [taxon 5551], Bos taurus (bovine, species) [taxon 9913], Homo sapiens (human, species) [taxon 9606]

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12028449/full.md

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Source: https://tomesphere.com/paper/PMC12028449