New approach to predict pressure produced by elastic textile in the therepeutic treatment of venous leg

Ahmad

2020

Autex Research Journal

Woven compression bandage (CB) is one of the elastic textiles that exert pressure on muscles. With a defined tensile strength, it is possible to create the required compression on the given body parts. This work aims to investigate the relationship between woven fabric deformation, porosity, and tensile stress properties of three main types of woven CBs. All bandage samples are applied on human leg using two- and three-layer bandaging techniques. Bandage porosity is calculated for all frames at different weave angles using NIS software. Woven bandage construction parameters which are given by the preparation of warp and weft yarns, twist, count, and density along with woven fabric weave, type of weaving, and finishing process are the main factors that influence the bandage properties. Several methods considering thread distributions have been developed to determine the woven fabric’s porosity during the tensile stress. Experimental results confirm that bandage porosity is directly proportional to the bandage extension and weave angle that ranges from 44° to 90°. The novelty of candidate study is to introduce practical remarks to the patient for optimizing the required bandage pressure by suitable extension or applied tension or weave angle for two- and three-layer bandaging systems.

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Section: Comparison Between Calculated Pressure and Measured Compressmentioning

confidence: 99%

Influence of Tensile Stress on Woven Compression Bandage Structure and Porosity

Ahmad

2020

Autex Research Journal

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“…12 In order to design effective compression bandages, researchers have attempted to describe the interface pressure applied by these bandages using mathematical models. [13][14][15] Few studies have been focused on the optimization and best combinations of CBs for venous leg ulcers, edema healing, and prevention of recurrence. Most of patients depend on specialist practitioners or traditional experience.…”

Section: Introductionmentioning

confidence: 99%

Antibacterial easy adjustable woven compression bandage for venous leg ulcers

Khan

Journal of Industrial Textiles

et al. 2022

The proposed study aims in first part to discuss the structure and behavior of short-stretch cotton woven compression bandage (WCB), and in second part the production and properties of multifunctional WCB. The bandage includes an integrated tension sensor, which causes a change in the spacing of colored threads during its deformation. The motivation of this research was to investigate the optimum techniques for compression therapy using a modified construction of cotton WCB as a tensiometer. The aim of second part is focused on an industrial product which has the easy adjustable compression and antibacterial properties. Multifunctional WCB can be produced by two methods, the first was using highly twisted warp yarns (ply twist 1800 to 2200 twist/m) and the weft yarns will be treated with silver Nano-particles (NPs). The second method was post-treatment of the WCB with three concentrations of zinc oxide NPs 1–3 % in powder form with 15 g/L acrylic binder. Silver NPs coated yarns showed a comparable antibacterial activity on both tested bacterial strains ( Escherichia coli and Staphylococcus aureus) using quantitative and qualitative test methods. The WCB tested samples achieved 95–99% bacteria reduction, the nanoparticles size and its distribution were confirmed by the Zetasizer Nano, the scanning electron microscopy (SEM), and the energy dispersive X-ray spectroscopy (EDXS). The practical bandage pressure by PicoPress showed significant deviations compared with theoretical pressure calculated by Laplace’s equation ranges ±0.68 to ±15.64% especially at the highest extension levels.

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Analysis and prediction of woven compression bandages properties

The Journal of The Textile Institute

2018