The potential of carbon-based nanomaterials in hepatitis C virus treatment: a review of carbon nanotubes, dendrimers and fullerenes

IF 4.703 3区 材料科学
Karim Nader, Amro Shetta, Sameh Saber, Wael Mamdouh
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引用次数: 0

Abstract

HCV, hepatitis C virus, is a virus that causes damage to the liver. Both chronic infection or lack of treatment increase morbidity except if it is an acute infection, as the body clears the virus without any intervention. Also, the virus has many genotypes, and until now, there has yet to be a single treatment capable of affecting and treating all these genotypes at once. This review will discuss the main and most used old treatments, IFN-a, PEG IFN-a, Ribavirin, Celgosvir, and sofosbuvir alone and with the combination of other drugs and their drawbacks. They should be given in combination to improve the effect on the virus compared with being administrated independently, as in the case of sofosbuvir. For these reasons, the need for new treatments and diagnostic tools arises, and the rule of nanotechnology comes here. The role of carbon nanotubes, dendrimers, and fullerenes will be discussed. CNTs, carbon nanotubes, are one-dimensional structures composed of a cylindrical sheet of graphite and are mainly used for diagnostic purposes against HCV. Dendrimers, three-dimensional highly branched structures, are macromolecules that provide better drug delivery and treatment options due to their unique structure that can be modified, producing versatile types; each has unique properties. Fullerenes which are cage like structures derived and closely related to CNTs, and composed of carbon atoms that can be substituted by other atoms which in return open unlimited usage for these carbon based materials. Fullerenes rule is unique since it has two mechanisms that prevent the virus from binding and acting on the virus-replicating enzyme. However, their charge needs to be determined; otherwise, it will lead to cytotoxicity. Lastly, no review has been done on the role of nanotechnology against HCV yet.

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碳基纳米材料在丙型肝炎病毒治疗中的潜力:碳纳米管、树状大分子和富勒烯的综述
HCV,即丙型肝炎病毒,是一种对肝脏造成损害的病毒。慢性感染或缺乏治疗都会增加发病率,除非是急性感染,因为身体在没有任何干预的情况下清除病毒。此外,这种病毒有许多基因型,到目前为止,还没有一种单一的治疗方法能够同时影响和治疗所有这些基因型。本综述将讨论主要和最常用的旧治疗方法,IFN-a, PEG IFN-a,利巴韦林,Celgosvir和索非布韦单独和与其他药物联合及其缺点。与索非布韦单独给药相比,它们应该联合给药以改善对病毒的作用。由于这些原因,对新的治疗方法和诊断工具的需求出现了,纳米技术的规则来到了这里。碳纳米管,树状大分子和富勒烯的作用将被讨论。碳纳米管是由圆柱形石墨片组成的一维结构,主要用于诊断丙肝病毒。树状大分子是一种三维高度分支结构的大分子,由于其独特的结构可以被修改,产生多种类型,因此可以提供更好的药物传递和治疗选择;每个都有独特的属性。富勒烯是一种笼状结构,与碳纳米管密切相关,由碳原子组成,可以被其他原子取代,从而为这些碳基材料开辟了无限的用途。富勒烯规则是独特的,因为它有两种机制来阻止病毒结合和作用于病毒复制酶。然而,他们的收费需要确定;否则会导致细胞毒性。最后,目前还没有关于纳米技术对HCV的作用的综述。
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来源期刊
Nanoscale Research Letters
Nanoscale Research Letters NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
15.00
自引率
0.00%
发文量
110
审稿时长
2.5 months
期刊介绍: Nanoscale Research Letters (NRL) provides an interdisciplinary forum for communication of scientific and technological advances in the creation and use of objects at the nanometer scale. NRL is the first nanotechnology journal from a major publisher to be published with Open Access.
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