In-vitro external fixation pin-site model proof of concept: A novel approach to studying wound healing in transcutaneous implants
Blake McCall, Karan Rana, Kate Sugden, Sarah Junaid

TL;DR
This study introduces a new lab model to investigate how pin movement affects wound healing in external fixation devices, showing increased inflammation with movement.
Contribution
A novel in vitro model combining human skin equivalents and mechanical pin-movement simulation to study wound healing in external fixation.
Findings
Static pins increased IL-1α and IL-8 levels compared to controls.
Dynamic pin movement further elevated cytokine levels compared to static pins.
The model supports the hypothesis that pin movement negatively impacts wound healing.
Abstract
External fixation is an essential surgical technique for treating trauma, limb lengthening and deformity correction, however infection is common, with infection rates ranging from 4.5 to 100% of cases. Throughout the literature researchers and clinicians have highlighted a relationship between excessive movement of the pin and skin and an increase in the patient’s risk of infection, however, currently no studies have addressed this role of pin-movement on pin-site wounds. This preliminary study describes a novel in vitro pin-site model, developed using a full-thickness human skin equivalent (HSE) model in conjunction with a bespoke mechanical system which simulates pin-movement. The effect of pin-movement on the wound healing response of the skin equivalents was assessed by measuring the expression of pro-inflammatory cytokines. Six human skin equivalent models were divided into three…
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Taxonomy
TopicsSurgical Sutures and Adhesives · Wound Healing and Treatments · Surgical site infection prevention
