Potent antifungal agents and use of nanocarriers to improve delivery to the infected site: A systematic review

Nagaraj, Saraswathi; Manivannan, Sivakami; Narayan, Shoba

doi:10.1002/jobm.202100204

Cited by 18 publications

(15 citation statements)

References 221 publications

(214 reference statements)

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“…By reason of the squalene epoxidase enzyme’s action, which oxidizes squalene intermediates and accumulates them, ergosterol production is inhibited. This lack of ergosterol causes fungal cell death by increasing cellular permeability and upsetting cellular organization [ 54 ]. Correspondingly, we proposed that the synergistic effect of terbinafine with the bio-prepared ZnO-NPs results from the ergosterol inhibition action of terbinafine that disrupted the cellular permeability and led to the internalization of the bio-prepared ZnO-NPs that also underwent oxidation of cellular components such as DNA, protein, and enzymes leading to fungal cell death.…”

Section: Resultsmentioning

confidence: 99%

Synergistic Anticandidal Activities of Greenly Synthesized ZnO Nanomaterials with Commercial Antifungal Agents against Candidal Infections

et al. 2023

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The high occurrence of mycological resistance to conventional antifungal agents results in significant illness and death rates among immunodeficient patients. In addition, the underprivileged therapeutic results of conventional antifungal agents, besides the potential toxicity resulting from long term therapy necessitate the fabrication of efficient antimicrobial combinations. Hence, the objective of the present investigation is to synthesize, characterize and investigate the anticandidal action of green zinc oxide nanoparticles (ZnO-NPs) formulated using Camellia sinensis leaf extract against three candidal pathogens. The eco-friendly synthesized ZnO-NPs were characterized utilizing different physicochemical methods and their anticandidal potency was tested utilizing a disk diffusion assay. In this setting, the size of the biofabricated ZnO-NPs was detected using transmission electron microscope (TEM) micrographs, recording an average particle size of 19.380 ± 2.14 nm. In addition, zeta potential analysis revealed that the ZnO-NPs surface charge was −4.72 mV. The biogenic ZnO-NPs reveal the highest anticandidal activity against the C. tropicalis strain, demonstrating relative suppressive zones measured at 35.16 ± 0.13 and 37.87 ± 0.24 mm in diameter for ZnO-NPs concentrations of 50 and 100 μg/disk, respectively. Excitingly, Candida glabrata showed a high susceptibility to the biofabricated ZnO nanomaterials at both ZnO-NPs’ concentrations (50 and 100 μg/disk) compared to the control. Moreover, the biosynthesized ZnO-NPs revealed potential synergistic effectiveness with nystatin and terbinafine antifungal agents against the concerned strains. The maximum synergistic efficiency was noticed against the C. glabrata strain, demonstrating relative synergistic percentages of 23.02 and 45.9%, respectively. The biogenic ZnO-NPs revealed no hemolytic activity against human erythrocytes revealing their biosafety and hemocompatibility. Finally, the high anticandidal effectiveness of biogenic ZnO-NPs against the concerned candidal pathogens, as well as potential synergistic patterns with conventional antifungal agents such as nystatin and terbinafine, emphasize the prospective application of these combinations for the fabrication of biocompatible and highly efficient antifungal agents.

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Section: Resultsmentioning

confidence: 99%

Synergistic Anticandidal Activities of Greenly Synthesized ZnO Nanomaterials with Commercial Antifungal Agents against Candidal Infections

et al. 2023

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“…Nanotechnology has profound applications in biosensing, theranostics, targeted drug delivery, nanoformulation of neutraceuticals, medical imaging, etc. [8][9][10][11][12][13][14][15][16][17][18][19]. Nanobiosensors are sensing devices used to detect various biomolecules in a test sample.…”

Section: Exploration Of Medicinementioning

confidence: 99%

Development of nanobiosensors for human immunodeficiency virus detection—a mini review

Mudenkattil

Girigoswami

Jayaprakash

et al. 2022

Exploration of Medicine

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Acquired immunodeficiency syndrome (AIDS) is a global disease caused by human immunodeficiency virus (HIV). About 50 million people have died worldwide due to HIV-1 infection alone. HIV is a primary sexually transmitted infection but can also spread via breastfeeding, blood transfer, organ transfer, etc. Early detection with the maintenance of the disease is the only way to reduce the spread and severity of the disease. There are many conventional techniques for the detection of the virus. Still, recently nano-based diagnostic method remains a little ahead of these techniques due to advancements in nanotechnology. Nanomaterial-based biosensors constitute a significant part of the discussion because of their high sensitivity and accuracy. Nanobiosensors like electronic nano biosensors, quantum dot (QD)-based biosensors, optical biosensors, electronic biosensors, electrochemiluminescence nanosensors, field-effect transistor (FET) biosensors, surface acoustic wave (SAW) biosensors, graphene-based biosensors, etc. have been widely used for detecting HIV in human blood samples. All these biosensors offer promising results in the detection of the virus. In this article, different types of nanobiosensors and their application in the field of diagnosis and maintenance of HIV was reviewed.

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“…So far, this field has been reviewed with emphasis on nano-scaled composites primarily used as drug delivery systems and synthetic materials with antifungal activity ( Du et al., 2021 ; Nagaraj et al., 2021 ; Ntow-Boahene et al., 2021 ). In this review, we describe polymer-based strategies for management of fungal disease, including treatment, diagnosis as well as monitoring and prevention ( Scheme 1 ).…”

Section: Introductionmentioning

confidence: 99%

Progress of polymer-based strategies in fungal disease management: Designed for different roles

Guo

et al. 2023

Front. Cell. Infect. Microbiol.

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Fungal diseases have posed a great challenge to global health, but have fewer solutions compared to bacterial and viral infections. Development and application of new treatment modalities for fungi are limited by their inherent essential properties as eukaryotes. The microorganism identification and drug sensitivity analyze are limited by their proliferation rates. Moreover, there are currently no vaccines for prevention. Polymer science and related interdisciplinary technologies have revolutionized the field of fungal disease management. To date, numerous advanced polymer-based systems have been developed for management of fungal diseases, including prevention, diagnosis, treatment and monitoring. In this review, we provide an overview of current needs and advances in polymer-based strategies against fungal diseases. We high light various treatment modalities. Delivery systems of antifungal drugs, systems based on polymers’ innate antifungal activities, and photodynamic therapies each follow their own mechanisms and unique design clues. We also discuss various prevention strategies including immunization and antifungal medical devices, and further describe point-of-care testing platforms as futuristic diagnostic and monitoring tools. The broad application of polymer-based strategies for both public and personal health management is prospected and integrated systems have become a promising direction. However, there is a gap between experimental studies and clinical translation. In future, well-designed in vivo trials should be conducted to reveal the underlying mechanisms and explore the efficacy as well as biosafety of polymer-based products.

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Potent antifungal agents and use of nanocarriers to improve delivery to the infected site: A systematic review

Cited by 18 publications

References 221 publications

Synergistic Anticandidal Activities of Greenly Synthesized ZnO Nanomaterials with Commercial Antifungal Agents against Candidal Infections

Synergistic Anticandidal Activities of Greenly Synthesized ZnO Nanomaterials with Commercial Antifungal Agents against Candidal Infections

Development of nanobiosensors for human immunodeficiency virus detection—a mini review

Progress of polymer-based strategies in fungal disease management: Designed for different roles

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