Constanza Apip scite author profile

Constanza Apip

2Publications

21Citation Statements Received

146Citation Statements Given

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University of Concepción

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Dual antifungal activity againstCandida albicansof copper metallic nanostructures and hierarchical copper oxide marigold‐like nanostructures grown in situ in the culture medium

et al. 2020

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Aims This study aimed to determine in vitro activity of copper nanoparticles and copper nanowires against Candida albicans strains and to assess their effects on morphology and submicron structure. Methods and Results The microdilution method determined the minimal inhibitory concentration (MIC) of copper nanoparticles (CuNPs) and copper nanowires (CuNWs) against three strains of C. albicans: ATCC 10231 and two clinical strains (C and E). Effects on the morphology and ultrastructure of C. albicans strains were examined by scanning electron microscopy and transmission electron microscopy. MIC for CuNPs was 129·7 µg ml−1 for strain ATCC 10231, 1037·5 µg ml−1 for strain C and 518·8 µg ml−1for strain E. MIC for CuNWs was similar for all strains tested (260·3 µg ml−1). SEM and TEM studies showed alterations in morphology, cell wall and the complete collapse of the yeast after incubation with CuNPs. In contrast, most of the yeast cells maintained their structure with an intact cell wall, and only decreased the number and size of fimbriae when C. albicans was exposed to CuNWs. CuNPs and CuNWs formed hierarchical copper oxide nanostructures growing in situ in the culture medium. Results suggest a dual mechanism for antifungal activity: (i) free Cu2+ ions act as a biocide, (ii) sharp edges of marigold‐like petal nanostructures could injure the cellular wall and membrane and cause the death of the yeast. Conclusions CuNPs and CuNWs inhibited the growth of the three strains of C. albicans tested. Moreover, CuNPs disrupted cell wall with leakage of the cytoplasmic content. Each concentration of the series used for the determination of the activity of CuNPs and nanowires against C. albicans formed copper oxide marigold‐like nanostructures. Significance and Impact of the Study This study suggests that CuNPs and CuNWs are good candidates for formulating new therapeutic agents for candidiasis.

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An in vitro study on the inhibition and ultrastructural alterations of Candida albicans biofilm by zinc oxide nanowires in a PMMA matrix

Apip

Martínez

Meléndrez

et al. 2021

The Saudi Dental Journal

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Constanza Apip

Dual antifungal activity againstCandida albicansof copper metallic nanostructures and hierarchical copper oxide marigold‐like nanostructures grown in situ in the culture medium

An in vitro study on the inhibition and ultrastructural alterations of Candida albicans biofilm by zinc oxide nanowires in a PMMA matrix

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