Recent advances in the clinical development of antifungal vaccines: a narrative review

Das Alapan, Ojha Bisweswar, Sarkar Prasenjit, Das Prasanjit, Bandyopadhyay Arkapal
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Abstract

Vaccine development tools for fungal infections are undergoing transformation where newer technologies like nanotechnology and bioinformatics are used to create new and improved vaccine candidates. Immunocompromised individuals and those with multiple chronic conditions are especially vulnerable to invasive fungal infections. These patients are at increased risk of developing widespread infections and experiencing poor health outcomes. Current management of fungal infections is associated with diagnostic challenges, side effects, and resistance. Vaccination is an effective strategy to prevent infections and boost immunity. Despite the significant burden of fungal disease, there are currently no licensed fungal vaccines available. This review is focused on various vaccine development strategies, including whole-cell, subunit, and nucleic acid-based vaccines. Various challenges like safety concerns, weak and nonspecific immune response, ideal adjuvants, and the need for improved drug delivery systems are also highlighted in this review. Sustained antigenic response, addressing host immune response variability, and eliciting persistent predictable immune response are crucial for vaccine development. Standardized protocols and robust preclinical studies are essential for the clinical development of potential vaccine candidates. Exploring novel targets using advanced technologies like bioinformatics, nanotechnology, and reverse vaccinology are being rapidly explored.
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抗真菌疫苗临床开发的最新进展:综述
针对真菌感染的疫苗开发工具正在发生转变,纳米技术和生物信息学等新技术被用于开发新的改良候选疫苗。免疫力低下的人和患有多种慢性疾病的人特别容易受到侵袭性真菌感染。这些患者发生大面积感染和健康状况恶化的风险更高。目前治疗真菌感染的方法存在诊断难题、副作用和耐药性。接种疫苗是预防感染和提高免疫力的有效策略。尽管真菌疾病造成了巨大的负担,但目前还没有获得许可的真菌疫苗。本综述重点介绍各种疫苗开发策略,包括全细胞疫苗、亚单位疫苗和核酸疫苗。本综述还强调了各种挑战,如安全性问题、弱和非特异性免疫反应、理想佐剂以及改进给药系统的必要性。持续的抗原反应、解决宿主免疫反应的可变性以及激发持久的可预测免疫反应对于疫苗开发至关重要。标准化方案和稳健的临床前研究对于候选疫苗的临床开发至关重要。利用生物信息学、纳米技术和反向疫苗学等先进技术探索新型靶点的工作正在迅速展开。
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
CiteScore
1.60
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