Biopolymeric and lipid-based nanotechnological strategies for the design and development of novel mosquito repellent systems: recent advances

IF 4.6 3区 材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Chinekwu Nwagwu, Adaeze Onugwu, Adaeze Echezona, Samuel Uzondu, Chinazom Agbo, Frankline Kenechukwu, John Ogbonna, Lydia Ugorji, Lotanna Nwobi, Obichukwu Nwobi, Oluchi Mmuotoo, Ezinwanne Ezeibe, Brigitta Loretz, Clemence Tarirai, Kingsley Chimaeze Mbara, Nnabuife Agumah, Petra Nnamani, Kenneth Ofokansi, Claus-Micheal Lehr and Anthony Attama
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引用次数: 0

Abstract

Mosquitoes are the most medically important arthropod vectors of several human diseases. These diseases are known to severely incapacitate and debilitate millions of people, resulting in countless loss of lives. Over the years, several measures have been put in place to control the transmission of mosquito-borne diseases, one of which is using repellents. Repellents are one of the most effective personal protective measures against mosquito-borne diseases. However, conventional delivery systems of repellents (e.g., creams, gels, and sprays) are plagued with toxicity and short-term efficacy issues. The application of biopolymeric and lipid-based systems has been explored over the years to develop better delivery systems for active pharmaceutical ingredients including mosquito repellents. These delivery systems (e.g., solid lipid micro/nanoparticles, micro/nanoemulsions, or liposomes) possess desirable properties such as high biocompatibility, versatility, and controlled/sustained drug delivery, and thus are very important in tackling the clinical challenges of conventional repellent systems. Their capability for controlled/sustained drug release has improved patient compliance as it removes the need for consistent reapplication of repellents. They can also be engineered to reduce repellents' skin permeation, consequently improving their safety. However, despite the benefits that these systems offer very few of them have been successfully translated to the global market for commercial use, a vital challenge that previous reports have not thoroughly examined. The issue of limited clinical translation of novel repellent systems is a vital aspect to consider, as the ultimate goal is to move these systems from bench to bedside. As such, this study seeks to highlight the recent advances in the use of biopolymeric and lipid-based systems for the development of novel mosquito-repellent systems and also analyze the challenges that have limited the clinical translation of these systems while proposing possible strategies to overcome these challenges.

Abstract Image

Abstract Image

设计和开发新型驱蚊系统的生物聚合物和脂质纳米技术策略:最新进展。
蚊子是几种人类疾病最重要的医学节肢动物媒介。众所周知,这些疾病使数以百万计的人严重丧失工作能力和身体虚弱,导致无数人丧生。多年来,人们采取了多种措施来控制蚊媒疾病的传播,其中之一就是使用驱蚊剂。驱蚊剂是防止蚊子传播疾病最有效的个人防护措施之一。然而,驱蚊剂的传统给药系统(如药膏、凝胶和喷雾剂)存在毒性和短期疗效问题。多年来,人们一直在探索生物聚合物和脂质系统的应用,以便为包括驱蚊剂在内的活性药物成分开发更好的给药系统。这些给药系统(如固体脂质微/纳米颗粒、微/纳米乳液或脂质体)具有高生物相容性、多功能性和可控/持续给药等理想特性,因此对解决传统驱蚊系统的临床难题非常重要。它们能够控制/持续释放药物,从而提高了患者的依从性,因为这样就不需要持续不断地重新涂抹驱虫剂。还可以通过设计减少驱虫剂的皮肤渗透,从而提高其安全性。然而,尽管这些系统能带来诸多好处,但只有极少数能成功推向全球市场,用于商业用途。新型驱蚊系统的临床应用有限是一个需要考虑的重要方面,因为我们的最终目标是将这些系统从实验室推向临床。因此,本研究旨在强调使用生物聚合物和脂质系统开发新型驱蚊系统的最新进展,并分析限制这些系统临床应用的挑战,同时提出克服这些挑战的可能策略。
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来源期刊
Nanoscale Advances
Nanoscale Advances Multiple-
CiteScore
8.00
自引率
2.10%
发文量
461
审稿时长
9 weeks
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