基于纳米技术的疟疾诊断和治疗给药系统的当前趋势:综述》(Nanotechnology-based Drug Delivery Systems for the Diagnosis and Treatment of Malaria: A Review)。

Rohitas Deshmukh, Bhuvaneshwari Dewangan, Ranjit K Harwansh, Rutvi Agrawal, Akash Garg, Himansu Chopra
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引用次数: 0

摘要

疟疾仍然是通过受疟原虫感染的蚊子传播给人类的一种主要地方病。疟疾寄生虫的根除和控制措施已由当地和国际卫生组织进行了严格和广泛的部署。疟疾的复发是未能完全根除的结果。疟原虫化疗的弊端、非特异性靶向性、多重抗药性、高剂量要求、难以忍受的毒性、疟原虫生命周期难以确定的复杂性,以及恶性疟原虫抗药性菌株的出现,都是根除措施效果不佳的原因。随着纳米技术的出现及其在各个工业领域的应用,人们对医学领域,尤其是流行病学领域的兴趣急剧上升。纳米级载体的应用引发了人们的特别关注,其目的是最大限度地减少药物治疗引起的整体副作用,避免生物利用度。将纳米生物技术的概念应用于病媒控制和患者治疗也是方法之一。目前的研究重点是使用混合药物作为下一代抗疟药物,因为它们涉及较少的药物不良反应。本文介绍了许多基于纳米尺寸的给药系统,这些系统在高等动物模型中被发现是有效的,尤其是在治疗疟疾预防方面。本文详细综述了诊断技术、各种纳米技术方法、纳米载体的应用以及疟疾治疗的基本机制,从而从创新和技术的角度提供了当前趋势的见解和方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Current Trends in Nanotechnology-based Drug Delivery Systems for the Diagnosis and Treatment of Malaria: A Review.

Malaria is still a major endemic disease transmitted in humans via Plasmodium-infected mosquitoes. The eradication of malarial parasites and the control measures have been rigorously and extensively deployed by local and international health organizations. Malaria's recurrence is a result of the failure to entirely eradicate it. The drawbacks related to malarial chemotherapy, non-specific targeting, multiple drug resistance, requirement of high doses, intolerable toxicity, indefinable complexity of Plasmodium's life cycle, and advent of drug-resistant strains of P. falciparum are the causes of the ineffective eradication measures. With the emergence of nanotechnology and its application in various industrial domains, the rising interest in the medical field, especially in epidemiology, has skyrocketed. The applications of nanosized carriers have sparked special attention, aiming towards minimizing the overall side effects caused due to drug therapy and avoiding bioavailability. The applications of concepts of nanobiotechnology to both vector control and patient therapy can also be one of the approaches. The current study focuses on the use of hybrid drugs as next-generation antimalarial drugs because they involve fewer drug adverse effects. The paper encompasses the numerous nanosized delivery-based systems that have been found to be effective among higher animal models, especially in treating malarial prophylaxis. This paper delivers a detailed review of diagnostic techniques, various nanotechnology approaches, the application of nanocarriers, and the underlying mechanisms for the management of malaria, thereby providing insights and the direction in which the current trends are imparted from the innovative and technological perspective.

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