Abstract
Fiber shedding is a critical problem in biomedical textile debridement materials, which leads to infection and impairs wound healing. In this work, single fiber pull-out test was proposed as an in vitro evaluation for the fiber shedding property of a textile pile debridement material. Samples with different structural design (pile densities, numbers of ground yarns and coating times) were prepared and estimated under this testing method. Results show that single fiber pull-out test offers an appropriate in vitro evaluation for the fiber shedding property of textile pile debridement materials. Pull-out force for samples without back-coating exhibited a slight escalating trend with the supplement in pile density and number of ground yarn plies, while back-coating process significantly raised the single fiber pull-out force. For fiber shedding mechanism analysis, typical pull-out behavior and failure modes of the single fiber pull-out test were analyzed in detail. Three failure modes were found in this study, i.e., fiber slippage, coating point rupture and fiber breakage. In summary, to obtain samples with desirable fiber shedding property, fabric structural design, preparation process and raw materials selection should be taken into full consideration.
Highlights
Skin wounds with various characteristics are a global issue and a major threat to the public health and economy [1,2,3]
In order to obtain samples with desirable fiber shedding property for wound debridement application, fabric structural design, preparation process and raw materials selection should be taken into full consideration
In order to avoid any unexpected infection caused by the shed fibers, back-coating treatment is highly recommended unexpected infection caused by the shed fibers, back-coating treatment is highly recommended for for preparation the preparation of textile pile materials
Summary
Skin wounds with various characteristics are a global issue and a major threat to the public health and economy [1,2,3]. Those that fail to heal within an anticipated time and do not proceed through a highly organized reparative process, which results in anatomic and functional integrity, are considered chronic [2,4]. Venous and diabetic foot ulcers are the three main categories of chronic wounds [5,6,7]. The TIME concept (Tissue, Inflammation (or Infection), Moisture, Edge) proposed by European Wound Management Association (EWMA) in 2003 has been widely accepted as a practical guide for the debridement of chronic wounds [12,13]
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