Comparison of Antifungal Activity of Probiotics, Coconut Oil and Clotrimazole on Candida Albicans – An In vitro Study

UmaMaheswari, TN; Divyadharsini, V; Rajeshkumar, S

doi:10.4103/jiaomr.jiaomr_137_21

Cited by 4 publications

(1 citation statement)

References 24 publications

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“…The compounds have been a part of traditional medicine for decades. Therefore, they have been explored for their medicinal properties and are now used in pharmaceutical, industrial, and food industry applications as well [2][3][4][5]. The phytochemicals of flavonoids, alkaloids, terpenoids, saponins, carotenoids, and other aromatic and organic acids were reported in many studies.…”

Section: Introductionmentioning

confidence: 99%

Fabrication, Characterization of Curcumin Loaded Alginate Chitosan for Potential Wound Healing Applications

Sivakumar,

Priya Veeraraghavan,

Gayathri

et al. 2024

TIJPH

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The most employed scaffolds in tissue engineering are alginate and chitosan due to their properties like biodegradability, compatibility, and structural similarity to that of the ECM. Curcumin, together with scaffolds such as alginate and chitosan, can improve wound healing properties by tissue repair and regeneration. This study aims to load curcumin into alginate chitosan scaffolds and to analyze their potential wound healing properties by characterization and checking their biocompatibility. Curcumin was loaded into the alginate-chitosan scaffold. It was then characterized using Fourier Transform-InfraRed (FT-IR) spectroscopy and Scanning Electron Microscopy (SEM). Annexin V PI apoptotic assay and Hemolytic assay were done to screen its biocompatibility. FT-IR has strong absorption bands at 3237, 2359, 1597, 1406, 1025, and 947 cm−1. SEM analysis of the curcumin-loaded alginate-chitosan scaffold showed the dispersed curcumin on the surface of the porous scaffold. Our results suggest that the curcumin-loaded alginate-chitosan scaffold possesses greater biocompatibility towards peripheral blood mononuclear cells (PBMC) which was confirmed by Annexin V - PI assay and hemolytic assay. Curcumin loaded onto an alginate-chitosan scaffold is reported to be biocompatible using flow cytometry and hemolytic assay. However a more detailed study must be done before using it for potential wound healing applications.

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Section: Introductionmentioning

confidence: 99%

Fabrication, Characterization of Curcumin Loaded Alginate Chitosan for Potential Wound Healing Applications

Sivakumar,

Priya Veeraraghavan,

Gayathri

et al. 2024

TIJPH

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In-vitro Evaluation of the Antifungal Property of Cold-Pressed Coconut oil Against Drug-Resistant Candida albicans and in-Silico Bioactivity Against Candidapepsin-2

Mbim,

Edet,

Nwaokorie

et al. 2024

Natural Product Communications

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Objective: This study focuses on Candida albicans, a significant fungal pathogen in humans, particularly affecting immunocompromised individuals and developing resistance to commonly used antifungal drugs. To address this challenge, the research assessed the in-vitro anti-candida properties of cold-pressed coconut oil. Additionally, the study conducted an in-silico evaluation of the oil's bioactive compounds against candidapepsin-2, an enzyme crucial in the virulence and pathogenesis of Candida infections. Materials and Methods: Extracted coconut oil was tested for its sterility and evaluated for its antifungal activity in-vitro using the agar well-diffusion methods with fluconazole as a positive control. Growth kinetics assay and synergism activity with fluconazole were also assessed. The coconut oil was quantitatively screened for its bioactive compounds using gas chromatography coupled to a mass spectrophotometer (GC-MS) and the resulting bioactive compounds were assessed for absorption, distribution, metabolism, excretion and toxicity (ADMET) properties using the SWISSADME tool. Compounds that met Lipinski's rule of five (ROF) were subjected to molecular docking against candidapepsin-2 using the Biovia (Discovery) docking tool. Results: The test isolates exhibited zones of inhibition ranging from 47–76 mm to the extract (100%) compared to 12–42 mm exhibited against fluconazole (400 mg) and 2–3 mm in plates containing only agar with MICs and MFCs ranging from 1.57–6.25% and 3.13 −12.5% against the extract compared to the control drug where MICs and MFCs of 6.25–12.5% and 12.5–25.0% were observed, respectively. The coconut extract exerted a concentration-dependent effect on the test isolates over time as higher extract concentrations decreased the optical density of cells to 0.001–0.06 at 72 h of incubation. Equal proportions of the extract + fluconazole exerted greater inhibitory potentials on the test isolates compared with those of low extract proportions. The synergistic-antagonistic antifungal assay showed enhanced sensitivity of the resistant isolates. Of the eleven (11) bioactive compounds quantitatively screened, only nine (9) met Lipinski's ROF and also returned favourable pharmacokinetics comparable to fluconazole. Docking scores for the bioactive compounds ranged from −2.0 to −3.0 kcal/mol. The most recurring amino acid residues following molecular docking were ILE and THR. Conclusion: The bioactive compounds showed desirable activities in-vitro, especially in synergy with fluconazole against the drug-resistant Candida species and in-silico and thus, require further studies to validate their potential use in the management of Candida-related infections.

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Denture-related Oral Mucosal Lesions in a Private Dental Institute: A Retrospective Study

Kumar,

Narayan

2024

World Journal of Dentistry

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Comparison of Antifungal Activity of Probiotics, Coconut Oil and Clotrimazole on Candida Albicans – An In vitro Study

Cited by 4 publications

References 24 publications

Fabrication, Characterization of Curcumin Loaded Alginate Chitosan for Potential Wound Healing Applications

Fabrication, Characterization of Curcumin Loaded Alginate Chitosan for Potential Wound Healing Applications

In-vitro Evaluation of the Antifungal Property of Cold-Pressed Coconut oil Against Drug-Resistant Candida albicans and in-Silico Bioactivity Against Candidapepsin-2

Denture-related Oral Mucosal Lesions in a Private Dental Institute: A Retrospective Study

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