Comparative evaluation of wound healing with different treatments in rats: Cytokine modulation, histological remodeling, and scar outcomes

Nino Kuridze; Sophio Giorgadze; Luiza Gabunia; Ketevan Ghambashidze; Nodar Sulashvili; Tamar Didbaridze; Nino Gvajaia; Vasil Kupradze; Levan Ratiani

doi:10.2478/rrlm-2026-0014

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Comparative evaluation of wound healing with different treatments in rats: Cytokine modulation, histological remodeling, and scar outcomes

Revista Romana de Medicina de Laborator

Volume 34 (2026): Issue 2 (April 2026)

By: Nino Kuridze, Sophio Giorgadze, Luiza Gabunia, Ketevan Ghambashidze, Nodar Sulashvili, Tamar Didbaridze, Nino Gvajaia, Vasil Kupradze and Levan Ratiani

Open Access

|Apr 2026

Abstract

Background

Skin injury repair depends on a tightly regulated sequence of inflammation, proliferation, and matrix remodeling, where mediators such as IL-1 and IL-6 contribute to immune activation and extracellular matrix formation. Variability in cytokine control influences scar maturation, prompting exploration of treatment strategies capable of shortening the inflammatory phase and enhancing structural regeneration.

Methods

This study compared four wound-care approaches in rats with surgically induced full- thickness lesions: a polysilicon-siloxane formulation (PS), a silicone-based gel (Sil), a betamethasone preparation (BMt), and a heparin-containing agent (Hep). Topical formulations were applied two to three times daily, while BMt was delivered weekly by subcutaneous injection. Serum IL-1 and IL-6 concentrations were quantified by ELISA, scar evolution was documented using the Vancouver Scar Scale, and tissue organization was examined through histological staining protocols, including trichrome-based collagen visualization and elastic fiber assessment.

Results

Early cytokine elevation was evident across groups, with IL-1 returning to near-baseline most rapidly in PS- and Sil-treated animals by day 21, and one week later in BMt-treated rats. Hep and untreated controls maintained higher values for longer. IL-6 peaked later than IL-1, normalizing by day 28 in the PS, Sil, and BMt groups alone. Microscopy demonstrated faster vascular normalization and earlier collagen and elastic-fiber restoration with PS, followed by Sil and BMt, while Hep improved matrix architecture only during later stages.

Conclusions

Overall, PS produced the most favorable and accelerated recovery pattern, Sil and BMt provided moderate benefit, and Hep displayed slower reparative capacity.

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Articles in this issue

DOI: https://doi.org/10.2478/rrlm-2026-0014 | Journal eISSN: 2284-5623 | Journal ISSN: 1841-6624

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Language: English

Page range: 179 - 192

Submitted on: Dec 9, 2025

Accepted on: Feb 16, 2026

Published on: Apr 24, 2026

Published by: Romanian Association of Laboratory Medicine

In partnership with: Paradigm Publishing Services

Publication frequency: 4 issues per year

Keywords:

collagen,

fibroblast,

interleukin-1 (IL-1),

interleukin-6 (IL-6),

Related subjects:

Microbiology and virology

© 2026 Nino Kuridze, Sophio Giorgadze, Luiza Gabunia, Ketevan Ghambashidze, Nodar Sulashvili, Tamar Didbaridze, Nino Gvajaia, Vasil Kupradze, Levan Ratiani, published by Romanian Association of Laboratory Medicine
This work is licensed under the Creative Commons Attribution 4.0 License.

Volume 34 (2026): Issue 2 (April 2026)