Search results for “wound healing

About 3 results in articles

Open Access Pub publishes peer-reviewed, free-to-read open-access articles. Showing articles matching wound healing — open any to read the full text, or download the PDF or XML.

3 articles

Acute and Chronic Wound Fluid Inversely Influence Wound Healing in an in-Vitro 3D Wound Model

Dec 2017 DOI 10.14302/issn.2640-6403.jtrr-17-1818
Manuela BesserCorresponding author University Witten/Herdecke, Centre for Biomedical Education and Research (ZBAF), Dpt. Of Translational Wound Research

If a wound progressively heals or the healing process is impaired is basically influenced by the surrounding milieu. This is reflected by the wound fluid. Its specific composition triggers the migration, proliferation and differentiation of dermal and epidermal cells which so far was not sufficiently examined in 2D cell culture models. The influence of the different wound entities was analyzed on a newly implemented three dimensional in-vitro model, which improved the transferability to the in-vivo situation. The influence of pooled wound fluids from patients suffering from acute or chronic wounds were investigated within a time period of 10 days after wound application. Histological and immunohistochemical analyses were performed addressing the impact of AWF and CWF on regeneration, such as cell proliferation, fibroblast activity and cell migration. AWF slightly stimulated fibroblast migration while CWF inhibited their activation and migration. The CXCR4- immunopositive population was continuously decreased compared to the control and AWF treatment. The expression of FAP was enhanced under AWF and medium. In keratinocytes CWF massively stimulated cell proliferation initiating on day six after injury. The presence of 10% CWF inhibited fibroblast activation and migration and induced the degradation of the collagen matrix. Keratinocytes were stimulated to proliferate, resulting in healing inhibiting hyperplasia. Transferred to human wounds, no effective wound closure would be achieved because of the de-regulation of pro-proliferative and migration-stimulating factors and a degraded extracellular matrix. This newly implemented 3D study model represents a novel appropriate in-vitro system for studying healing mechanisms and potential therapeutic applications.

Diabetic Mouse Delayed Wound Model Following Treatment with the NerveStim™ Neuropathy System

Apr 2026 DOI 10.14302/issn.2640-6403.jtrr-26-6077
Kalmeta MargaretCorresponding author

Delayed wound healing in diabetes is characterized by impaired angiogenesis, persistent inflammation, extracellular matrix dysregulation, and peripheral neuropathy. A preclinical study was conducted using a diabetic mouse delayed wound model to evaluate the surrounding tissue of a wound, (its periwound) and its tissue responses following treatment with the NerveStim™ Neuropathy System, a combination topical gel and neuromuscular electrical stimulation platform. Periwound tissue was harvested at Day 14 and analyzed using NanoString gene expression profiling. Treated animals demonstrated visibly increased periwound tissue thickness compared to untreated controls. Differential expression analysis identified 76 significantly upregulated and 17 downregulated genes. Upregulated pathways included angiogenesis (Vegfa, Fgf2, Pdgfb, Nos3), neurotrophic signaling (Ngf, Bdnf, Scn9a, Trpv1), macrophage polarization (Arg1, Mrc1, Il10), and extracellular matrix remodeling (Col1a1, Col3a1, Mmp9, Timp1). Downregulation of select pro-inflammatory mediators (Nos2, Mif) was observed. These coordinated transcriptional changes are consistent with activation of reparative immune, neurovascular, and matrix remodeling pathways in diabetic periwound tissue.

Possibility to Influence Treatment of Open Tibial Fracture by Negative Pressure Wound Therapy

Nov 2019
Miroslav Budoš MUDr.Corresponding author Traumatology dep., Bata Hospital Zlín, Chzech Republic.

Modern medicine gives treatment options even in cases, where this has not been possible in the past. We want to present how negative pressure wound therapy (NPWT) helps in limb salvage. The case report brings our insight and experience on how to be successful with NPWT. We present a high-energy injury with an open tibial fracture IIIB according to Gustillo-Anderson classification 11. NPWT is an excellent option to treat extensive soft tissue injury. NPWT is also beneficial in the application of the dermoepidermal graft as we have found. We can confirm that this therapy contributed to a faster healing of soft tissues compared to classical wound healing.

Frequently asked questions

Are these articles peer-reviewed?
Yes. Articles published at Open Access Pub go through single-blind peer review (double-blind on request) under an editorial board before publication.
Are the articles free to read?
Yes. Every article is open access — read the full text online for free and download the PDF or XML, with no paywall or subscription.
How do I cite an article?
Use the DOI shown on each result and on the article page; it is the permanent, citable link to the article.
How do I read or download an article?
Click "Read full text" to open the article HTML, or use the PDF / XML buttons on each card to download it.