Improving antifungal lipid-based drug delivery against Candida: a review.

Gabriel Davi Marena, Alba Ruiz-Gaitán, Taís Maria Bauab, Marlus Chorilli
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Abstract

Introduction: Fungal infections, particularly those caused by Candida spp. have increased in recent years. A primary contributor to this surge was the COVID-19 pandemic, where many hospitalized patients had secondary fungal infections. Additionally, the emergence of resistant and multi-resistant fungal strains has become increasingly problematic due to the limited therapeutic options available in antifungal treatments.

Areas covered: This review presents a comprehensive analysis of recent studies focused on the development and characterization of lipid-based nanosystems as an emerging and promising therapeutic alternative. These systems have been evaluated for their potential to deliver antifungal agents specifically targeting resistant Candida spp. strains, offering a controlled and sustained release of drugs.

Expert opinion: Lipid-based nanomaterials are promising tools for the controlled and sustained release of drugs, particularly in treating Candida spp. infections. Although substantial research has been dedicated to development of these nanomaterials, only a few have reached clinical application, such as liposomal amphotericin B, for example. Therefore, it is critical to push forward with advancements to bring these nanomedicines into clinical practice, where they can contribute meaningfully to mitigating the challenge of resistant and lethal fungal strains.

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改进以脂质为基础的抗真菌药物输送以对抗念珠菌:综述。
导言:真菌感染,尤其是由念珠菌属引起的真菌感染近年来有所增加。造成这一激增的主要原因是 COVID-19 大流行,许多住院病人继发真菌感染。此外,由于抗真菌治疗方法的选择有限,耐药和多重耐药真菌菌株的出现已成为日益严重的问题:本综述全面分析了近期有关脂质纳米系统的开发和特征描述的研究,脂质纳米系统是一种新兴的、前景广阔的治疗选择。专家观点:脂基纳米材料是一种新型的、有前途的治疗选择:脂基纳米材料是控制和持续释放药物的理想工具,尤其是在治疗念珠菌感染方面。虽然对这些纳米材料的开发进行了大量研究,但只有少数已应用于临床,例如脂质体两性霉素 B。因此,推动这些纳米药物进入临床实践至关重要,因为它们能为减轻耐药和致命真菌菌株的挑战做出有意义的贡献。
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