Wound healing using plasma modified collagen

Q1 Medicine Clinical Plasma Medicine Pub Date : 2018-12-01 DOI:10.1016/j.cpme.2018.10.002
Liam O'Neill , Peter Dobbyn , Mangesh Kulkarni , Abhay Pandit
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引用次数: 14

Abstract

Background

Wound healing remains a challenge in diabetic or immune-compromised patients and often requires the use of advanced biologic dressings to treat slow healing ulcers. The emergence of plasma medicine has provided some hope for advancement in wound closure rates for non-healing patients and some positive clinical results have already been observed. However, the potential to combine biologic dressings with plasma medicine has not yet been widely explored and this study outlines one potential way to combine such therapies.

Methods

A nebulised collagen solution was introduced into a non-thermal plasma discharge and the activated materials were deposited onto a surface to produce a dry, adherent and coagulated biomolecule coating. The plasma device was subsequently used to deliver collagen on to chronic wounds in a compromised animal wound healing model (Alloxan induced diabetes in White New Zealand rabbits) and the healing rate was compared to untreated controls and to wounds that were treated with plasma but without the collagen deposition.

Results

Surface analysis using XPS, FTIR and contact angle measurements indicated that the deposit largely retained the chemical features of the dissolved protein. The plasma deposited collagen was also shown to effectively promote wound closure when compared to control wounds. Although a simple plasma treatment alone also reduced inflammation and enhanced wound healing, the collagen component produced a statistically significant (p < 0.05) enhancement of both angiogenesis and wound closure rates.

Conclusions

Combining a biologic therapy with a plasma treatment showed promising results in the treatment of chronic wounds in an animal model and demonstrated the potential to combine biologic therapies with plasma deposition for targeted local delivery and enhanced healing.

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使用血浆修饰的胶原蛋白进行伤口愈合
背景:对于糖尿病或免疫功能低下的患者,伤口愈合仍然是一个挑战,通常需要使用先进的生物敷料来治疗愈合缓慢的溃疡。血浆药物的出现为提高未愈合患者的伤口愈合率提供了一些希望,并且已经观察到一些积极的临床结果。然而,结合生物敷料和血浆药物的潜力尚未得到广泛探索,本研究概述了一种结合这种疗法的潜在方法。方法将雾化的胶原蛋白溶液引入非热等离子体放电,将活化的材料沉积在表面,形成干燥、粘附、凝固的生物分子涂层。随后,该等离子装置被用于将胶原蛋白输送到受损动物伤口愈合模型(四氧嘧啶诱导的白新西兰兔糖尿病)的慢性伤口上,并将愈合率与未治疗的对照组和用血浆治疗但没有胶原沉积的伤口进行比较。结果XPS、FTIR和接触角分析表明,沉积物基本保留了溶解蛋白的化学特征。与对照伤口相比,血浆沉积的胶原蛋白也能有效地促进伤口愈合。虽然单纯的血浆治疗也能减少炎症并促进伤口愈合,但胶原成分对血管生成和伤口愈合率的提高具有统计学意义(p < 0.05)。结论在动物模型中,生物疗法与血浆疗法结合治疗慢性伤口显示出良好的效果,并证明了生物疗法与血浆沉积结合治疗局部靶向递送和促进愈合的潜力。
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Clinical Plasma Medicine
Clinical Plasma Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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