Nanotechnology in the Future Treatment of Diabetic Wounds.

Q3 Medicine
Review of Diabetic Studies Pub Date : 2020-01-01 Epub Date: 2020-06-30 DOI:10.1900/RDS.2020.16.1
Robert A Smith
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引用次数: 2

Abstract

Diabetic wounds have a large and increasing burden on the healthcare of the UK. Currently, none of the standard treatment options for the treatment of diabetic wounds specifically target the physiological processes behind their enhanced severity. This review evaluated recent studies in the field of nanotechnology concerned with treating diabetic wounds. The studies had each developed novel therapeutics involving nanomedicines that sought to either enhance angiogenesis, the construction of new blood vessels, or increase collagen production, as well as limit the augmented inflammation, in wounds in diabetic rat or mice models. The investigations tended to either target specific antiinflammatory or pro-proliferative receptors on endogenous cells, or transport growth factors to the wound. Previous studies have shown the beneficial effects of growth factors on healing, but they are easily broken down. By transporting them in nanoscaffolds and liposomes, it has been shown that the longevity of growth factors can be enhanced. Gold nanoparticle matrices have also been shown to have a beneficial effect on healing, by both conveying proliferative factors and independently triggering angiogenesis and collagen production. The most impressive results in the review were achieved by nanomedicines involving multiple growth factors, hence, the review will highlight the beneficial factors to wound healing and suggest a composite therapy to be trialled in the future. The review will evaluate each set of papers using similar nanomedicines and highlight the challenges of transferring this therapy to the clinic.

未来治疗糖尿病伤口的纳米技术。
糖尿病伤口对英国的医疗保健造成了巨大且日益增加的负担。目前,治疗糖尿病伤口的标准治疗方案中没有一种是专门针对其加重程度背后的生理过程的。本文综述了近年来纳米技术在治疗糖尿病伤口方面的研究进展。这些研究都开发了新的治疗方法,包括纳米药物,旨在促进血管生成,新血管的构建,或增加胶原蛋白的产生,以及限制糖尿病大鼠或小鼠模型伤口的增强炎症。研究倾向于针对内源性细胞上的特异性抗炎或促增殖受体,或将生长因子运输到伤口。先前的研究表明,生长因子对愈合有有益的作用,但它们很容易被分解。通过在纳米支架和脂质体中运输它们,已经证明可以提高生长因子的寿命。金纳米颗粒基质也被证明对愈合有有益的影响,通过传递增殖因子和独立触发血管生成和胶原蛋白的产生。该综述中最令人印象深刻的结果是通过涉及多种生长因子的纳米药物获得的,因此,该综述将强调对伤口愈合的有益因素,并建议在未来试验一种复合疗法。这篇综述将评估每一组使用类似纳米药物的论文,并强调将这种疗法转移到临床的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Review of Diabetic Studies
Review of Diabetic Studies Medicine-Internal Medicine
CiteScore
1.80
自引率
0.00%
发文量
28
期刊介绍: The Review of Diabetic Studies (RDS) is the society"s peer-reviewed journal published quarterly. The purpose of The RDS is to support and encourage research in biomedical diabetes-related science including areas such as endocrinology, immunology, epidemiology, genetics, cell-based research, developmental research, bioengineering and disease management.
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