Fungal Biofilms and Polymicrobial Diseases

Costa-Orlandi, Caroline Barcelos; Sardi, Janaína de Cássia Orlandi; Pitangui, Nayla de Souza; Oliveira, Haroldo César de; Scorzoni, Liliana; Galeane, Mariana Cristina; Medina-Alarcón, Kaila Petronila; Melo, Wanessa C.M.A. de; Marcelino, M.; Braz, Jaqueline Derissi; Fusco‐Almeida, Ana Marisa; Mendes‐Giannini, Maria José Soares

doi:10.3390/jof3020022

Cited by 166 publications

(144 citation statements)

References 218 publications

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“…C. albicans biofilms are unique and substantially differ from bacterial biofilms containing hyphae and pseudohyphae. Their properties are remarkably different from those of planktonic or free-living populations, most notably regarding their high-level resistance to most antifungal agents [4,5]. C. albicans biofilms can mature and increase in complexity within 24-48 h, the development of which begins with small microcolonies comprising budding yeast cells that later transform into filaments, forming pseudohyphae and true hyphae.…”

Section: Discussionmentioning

confidence: 99%

“…The discordance between the present and previous studies may be attributed to the different types of tests and biofilm development. The MTT assay, a colorimetric assay commonly used in studies on the susceptibility of biofilms to antifungal drugs, was used in the present study [4]. MTT, a yellow tetrazolium salt, is further reduced to insoluble purple formazan crystals in the presence of metabolic activity, indicating the percentage of viable cells [4,16,17].…”

Section: Discussionmentioning

confidence: 99%

“…The formation continues with the early development of basal layers of yeast cells, hyphae, and extracellular matrix. Mature biofilms contain a substantial number of yeast cells, hyphae, pseudohyphae, extracellular matrix, and water channels that facilitate the movement of nutrients and cell distribution [4]. Mature forms of C. albicans biofilms have proven resistant to a variety of conventional antifungal drugs, leading to ineffective treatment [5].…”

Section: O R I G I N a L Pa P E Rmentioning

confidence: 99%

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In vitro efficacy of garlic extract against Candida albicans biofilms from children with early childhood caries

Tjokrosetio

Budiardjo²,

Indiarti³

et al. 2018

jos

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Introduction: Garlic (Allium sativum) is known to be a natural antifungal agent with the ability to penetrate cellular and organelle membranes, resulting in cell death of Candida albicans. Objectives: The aim of the present study was to measure the efficacy of garlic extract against C. albicans biofilms frequently detected in early childhood caries (ECC). Material and methods: Samples of dental biofilms were obtained from children with ECC, cultured in CHRO-Magar Candida medium, and confirmed using a polymerase chain reaction (PCR) technique. Furthermore, biofilms were established in microplates, incubated for 48 h, and exposed to 10%, 25%, 50%, and 100% garlic extract using 0.2% chlorhexidine (CHX) as a positive control. Cell viability was subsequently measured by the methylthiazolyl-tetrazolium (MTT) assay. Results: There was a statistically significant decrease in the viability of C. albicans biofilms at all concentrations of garlic extract (p ≤ 0.000). Conclusion: Garlic extract is efficacious in reducing the viability of C. albicans biofilms from children with ECC.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: O R I G I N a L Pa P E Rmentioning

confidence: 99%

See 1 more Smart Citation

In vitro efficacy of garlic extract against Candida albicans biofilms from children with early childhood caries

Tjokrosetio

Budiardjo²,

Indiarti³

et al. 2018

jos

View full text Add to dashboard Cite

show abstract

“…Furthermore, the application of low energy ion irradiation (10 12 -10 16 ion/cm 2 ) can also be performed to enhance the physicochemical properties of the QDs and in turn their antifungal potency. Literature states that both biofilm and hyphal formation are important factors that are associated with drug resistivity and virulence [18]. This invariability makes drug resistance traits and virulence traits as crucial and novel high value targets for suppressing microbial infections.…”

Section: Discussionmentioning

confidence: 99%

Nano Based Therapy for Biofilm Management: Mini Review

Rawat¹

2017

JNMR

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High toxicity, low host tolerance, narrow spectrum of antifungal drugs and increasing incidence of azole-resistance complicates treatment of invasive Candida infections. Due to the emergence of antimicrobial resistance as an increasing threat to global health care, arises the need to develop new, and effective broad spectrum active antifungal agents. Thus understanding and combating drug resistance in Candida albicans is a toughest challenge being faced today and it's immensely important to develop an alternative coating that can inhibit biofilm formation on medical devices as implants and catheters. Additionally, the fascinating properties of nanomaterials and biocompatibility promises great potential in nanomedical applications, especially in medical microbiology. With appropriate modification of these synthetic materials, several disease infections can be cured and results have shown the use of these nanomaterials as diagnostic and immunotherapauetic agents. Since, antimicrobial resistance is becoming a major apprehension worldwide, nanomedicines offer an intriguing and promising solution for combating these high resistance pathogens by appropriate development of therauptic and novel diagnosis approaches. This mini review presents the current state of art in this emerging field.

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“…[ 16 ] As with bacteria, many fungi can adhere to biotic and abiotic surfaces, presenting as a challenge for removal of the biofilm communities. [ 17,18 ] For example, Candida species were found to be the fourth most common pathogen causing hospital‐acquired bloodstream infection in the USA, [ 19 ] with around 400 000 cases a year worldwide, which are often associated with implanted medical devices. [ 20 ] Antifungal drugs predominately target the disruption of the biosynthesis pathways or integrity of important components of the fungal cell wall.…”

Section: Introductionmentioning

confidence: 99%

Antimicrobial Metal Nanomaterials: From Passive to Stimuli‐Activated Applications

et al. 2020

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The development of antimicrobial drug resistance among pathogenic bacteria and fungi is one of the most significant health issues of the 21st century. Recently, advances in nanotechnology have led to the development of nanomaterials, particularly metals that exhibit antimicrobial properties. These metal nanomaterials have emerged as promising alternatives to traditional antimicrobial therapies. In this review, a broad overview of metal nanomaterials, their synthesis, properties, and interactions with pathogenic micro‐organisms is first provided. Secondly, the range of nanomaterials that demonstrate passive antimicrobial properties are outlined and in‐depth analysis and comparison of stimuli‐responsive antimicrobial nanomaterials are provided, which represent the next generation of microbiocidal nanomaterials. The stimulus applied to activate such nanomaterials includes light (including photocatalytic and photothermal) and magnetic fields, which can induce magnetic hyperthermia and kinetically driven magnetic activation. Broadly, this review aims to summarize the currently available research and provide future scope for the development of metal nanomaterial‐based antimicrobial technologies, particularly those that can be activated through externally applied stimuli.

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Fungal Biofilms and Polymicrobial Diseases

Cited by 166 publications

References 218 publications

In vitro efficacy of garlic extract against Candida albicans biofilms from children with early childhood caries

In vitro efficacy of garlic extract against Candida albicans biofilms from children with early childhood caries

Nano Based Therapy for Biofilm Management: Mini Review

Antimicrobial Metal Nanomaterials: From Passive to Stimuli‐Activated Applications

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