Effects of Dietary Supplementation with Green-Synthesized Zinc Oxide Nanoparticles for Candidiasis Control in Oreochromis niloticus.

Zinc is an essential element for metabolism of Nile tilapia (Oreochromis niloticus). Nanomaterials have important benefits in aquaculture. The present study evaluated the effects of green-synthesized zinc oxide nanoparticles (ZnO-NPs) using Ulva fasciata extract as an anti-fungal agent against Candida albicans (C. albicans) in vitro and in vivo in O. niloticus. A total of 252 apparent healthy O. niloticus (20 ± 0.457 g/fish) were randomly allocated into six groups: The 1st group fed on basal diet contaminated with C. albicans 15 × l06 CFU/g diet, the 2nd group fed basal diet only, the 3rd and 5th groups fed the basal diet supplemented with 40 or 60 mg/kg ZnO-NPs, respectively, and the 4th and 6th groups fed the basal diet contaminated with C. albicans 15 × l06 CFU/g and concomitantly supplemented with 40 or 60 mg/kg ZnO-NPs, respectively. The experiment lasted for 8 weeks. The phyco-synthesized ZnO-NPs were characterized by XRD, UV-V, FTIR, TEM, and zeta potential. The anti-fungal activities of ZnO-NPs and the morphological changes to C. albicans cell due to ZnO-NPs were detected. The results revealed that dietary supplementation with the green-synthesized ZnO-NPs significantly improved the growth performance, survival, serum lysozyme activity, phagocytic activity, phagocytic index, respiratory burst activity, expression of immune-related genes (IL-1ß, TGF, TNF-α), digestive enzyme activity, and histopathological finding in C. albicans-infected group, with a relative superiority to 40 mg/kg feed ZnO-NPs. It could be concluded that supplementing diets with 40 mg/kg of phyco-synthesized ZnO-NPs could be considered a better choice for controlling candidiasis in Nile tilapia.

Application of probiotics in candidiasis management.

Candidiasis (e.g., oral, gastrointestinal, vaginal, urinary tract, systemic) is a worldwide growing problem, since antifungal resistance and immunosuppression states are rising. To address this problem, very few drugs are available for the treatment of Candida spp. infections. Therefore, novel therapeutic strategies are urgently required. Probiotics have been proposed for the prevention and treatment of bacterial infections due to their safety record and efficacy, however, little is still known about their potential role regarding fungal infections. The purpose of this review is to present an updated summary of the evidence of the antifungal effects of probiotics along with a discussion of their potential use as an alternative/complementary therapy against Candida spp. infections. Thus, we performed a literature search using appropriate keywords ("Probiotic + Candida", "Candidiasis treatment", and "Probiotic + candidiasis") to retrieve relevant studies (both preclinical and clinical) with special emphasis on the works published in the last 5 years. An increasing amount of evidence has shown the potential usefulness of probiotics in the management of oral and vulvovaginal candidiasis in recent years. Among other results, we found that, as for bacterial infections, Lactobacillus, Bifidobacterium, and Saccharomyces are the most studied and effective genus for this purpose. However, in other areas, particularly in skincandidiaisis, studies are low or lacking. Thus, further investigation is necessary including in vitro and in vivo studies to establish the usefulness of probiotics in the management of candidiasis.

In vitro and in vivo effects of the combination of myricetin and miconazole nitrate incorporated to thermosensitive hydrogels, on C. albicans biofilms.

BACKGROUND: Candida albicans-related infections are common infections in clinic, among which biofilm-associated infections are most devastating and challenging to overcome. Myricetin (MY) is a plant-derived natural product with various pharmacological activities. Its anti-biofilm effect against C. albicans and its ability to increase the antifungal effect of miconazole nitrate (MN) were unclear and yet need to be explored. HYPOTHESIS/PURPOSE: In this study the anti-biofilm effect of MY and its ability to increase the antifungal effect of MN were investigated in vitro and in vivo. STUDY DESIGN AND METHODS: MY or/and MN were incorporated into a thermosensitive hydrogel (TSH) of poloxamer. The safety of MY or/and MN loaded TSHs towards human umbilical vein endothelial cells (HUVEC) was evaluated by a MTT assay and the in vivo safety towards mice knees was confirmed by histopathological examination. The anti-biofilm effect of MY and its ability to increase the antifungal effect of MN were investigated in vitro with C. albicans ATCC 10231 by broth microdilution method, crystal violet staining and scanning electron microscopy (SEM), as well as in vivo in an established mouse model of periprosthetic joint infection (PJI) by SEM, histological analysis, microorganism culture and detection of the serum levels of interleukin-6 (IL-6). The mechanism of action of MY was analyzed by qRT-PCR assay with C. albicans SC5314. RESULTS: Our results showed that MY and MN incorporated into TSHs exhibited good stability and safety, excellent temperature sensitivity and controlled drug release property. MY (5-640 µg/ml) exhibited no effect on C. albicans cell viability and MY (≥80 µg/ml) showed a significantly inhibitory effect on biofilm formation. MIC50 (the lowest concentrations of drugs resulting in 50% decrease of C. albicans growth) and MIC80 (the lowest concentrations of drugs resulting in 80% decrease of C. albicans growth) of MN were respectively decreased from 2 µg/ml to 0.5 µg/ml and from 4 µg/ml to 2 µg/ml when used in combination with MY (80 µg/ml). The mouse PJI was effectively prevented by MY and MN incorporated into TSH. CONCLUSIONS: Local application of MY and MN incorporated into TSH might be useful for clinical biofilm-associated infections.

Minocycline-EDTA-Ethanol Antimicrobial Catheter Lock Solution Is Highly Effective In Vitro for Eradication of Candida auris Biofilms.

Candida auris is an emerging pathogen that can cause virulent central-line-associated bloodstream infections. Catheter salvage through the eradication of biofilms is a desirable therapeutic option. We compared taurolidine and minocycline-EDTA-ethanol (MEE) catheter lock solutions in vitro for the eradication of biofilms of 10 C. auris strains. MEE fully eradicated all C. auris biofilms, while taurolidine lock partially eradicated all of the C. auris biofilms. The superiority was significant for all C. auris strains tested (P = 0.002).

Action mechanisms of probiotics on Candida spp. and candidiasis prevention: an update.

Due to the high incidence of fungal infections caused by Candida species and their increasing resistance to antimicrobial treatments, alternative therapies such as probiotics have been studied. It has been show that several species of the genus Lactobacillus have anti-Candida activity, probably by direct inhibition, through competition for adhesion sites or production of secondary metabolites, and by indirect inhibition, through stimulation of the immune system of their host. However, the mechanisms of inhibition of these probiotics on Candida species have not yet been fully elucidated since this effect is related to more than one inhibition pathway. In the literature, several in vitro and in vivo studies have been developed seeking to elucidate the probiotics mechanisms of action. These studies have been focused on C. albicans inhibition assays, including analysis of antimicrobial activity, adherence capacity, biofilms formation, filamentation and interference on virulence genes, as well as assays of experimental candidiasis in invertebrate and vertebrate models. In this context, the purpose of this review was to gather different studies focused on the action mechanism of probiotic strains on Candida sp. and to discuss their impact on the candidiasis prevention.

Lactobacillus rhamnosus Lcr35 as an effective treatment for preventing Candida albicans infection in the invertebrate model Caenorhabditis elegans: First mechanistic insights.

The increased recurrence of Candida albicans infections is associated with greater resistance to antifungal drugs. This involves the establishment of alternative therapeutic protocols, such as probiotic microorganisms whose antifungal potential has already been demonstrated using preclinical models (cell cultures, laboratory animals). Understanding the mechanisms of action of probiotic microorganisms has become a strategic need for the development of new therapeutics for humans. In this study, we investigated the prophylactic anti-C. albicans properties of Lactobacillus rhamnosus Lcr35® using the in vitro Caco-2 cell model and the in vivo Caenorhabditis elegans model. In Caco-2 cells, we showed that the strain Lcr35® significantly inhibited the growth (~2 log CFU.mL-1) and adhesion (150 to 6,300 times less) of the pathogen. Moreover, in addition to having a pro-longevity activity in the nematode (+42.9%, p = 3.56.10-6), Lcr35® protects the animal from the fungal infection (+267% of survival, p < 2.10-16) even if the yeast is still detectable in its intestine. At the mechanistic level, we noticed the repression of genes of the p38 MAPK signalling pathway and genes involved in the antifungal response induced by Lcr35®, suggesting that the pathogen no longer appears to be detected by the worm immune system. However, the DAF-16/FOXO transcription factor, implicated in the longevity and antipathogenic response of C. elegans, is activated by Lcr35®. These results suggest that the probiotic strain acts by stimulating its host via DAF-16 but also by suppressing the virulence of the pathogen.

Diagnosis, management and prevention of Candida auris in hospitals: position statement of the Australasian Society for Infectious Diseases.

Candida auris is an emerging drug-resistant yeast responsible for hospital outbreaks. This statement reviews the evidence regarding diagnosis, treatment and prevention of this organism and provides consensus recommendations for clinicians and microbiologists in Australia and New Zealand. C. auris has been isolated in over 30 countries (including Australia). Bloodstream infections are the most frequently reported infections. Infections have crude mortality of 30-60%. Acquisition is generally healthcare-associated and risks include underlying chronic disease, immunocompromise and presence of indwelling medical devices. C. auris may be misidentified by conventional phenotypic methods. Matrix-assisted laser desorption ionisation time-of-flight mass spectrometry or sequencing of the internal transcribed spacer regions and/or the D1/D2 regions of the 28S ribosomal DNA are therefore required for definitive laboratory identification. Antifungal drug resistance, particularly to fluconazole, is common, with variable resistance to amphotericin B and echinocandins. Echinocandins are currently recommended as first-line therapy for infection in adults and children ≥2 months of age. For neonates and infants <2 months of age, amphotericin B deoxycholate is recommended. Healthcare facilities with C. auris should implement a multimodal control response. Colonised or infected patients should be isolated in single rooms with Standard and Contact Precautions. Close contacts, patients transferred from facilities with endemic C. auris or admitted following stay in overseas healthcare institutions should be pre-emptively isolated and screened for colonisation. Composite swabs of the axilla and groin should be collected. Routine screening of healthcare workers and the environment is not recommended. Detergents and sporicidal disinfectants should be used for environmental decontamination.

Characterizing the Antimicrobial Properties of 405 nm Light and the Corning® Light-Diffusing Fiber Delivery System.

BACKGROUND AND OBJECTIVES: Hospital-acquired infections (HAIs) and multidrug resistant bacteria pose a significant threat to the U.S. healthcare system. With a dearth of new antibiotic approvals, novel antimicrobial strategies are required to help solve this problem. Violet-blue visible light (400-470 nm) has been shown to elicit strong antimicrobial effects toward many pathogens, including representatives of the ESKAPE bacterial pathogens, which have a high propensity to cause HAIs. However, phototherapeutic solutions to prevention or treating infections are currently limited by efficient and nonobtrusive light-delivery mechanisms. STUDY DESIGN/MATERIALS AND METHODS: Here, we investigate the in vitro antimicrobial properties of flexible Corning® light-diffusing fiber (LDF) toward members of the ESKAPE pathogens in a variety of growth states and in the context of biological materials. Bacteria were grown on agar surfaces, in liquid culture and on abiotic surfaces. We also explored the effects of 405 nm light within the presence of lung surfactant, human serum, and on eukaryotic cells. Pathogens tested include Enterococcus spp, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, Enterobacter spp., Staphylococcus epidermidis, Streptococcus pyogenes, Candida albicans, and Escherichia coli. RESULTS: Overall, the LDF delivery of 405 nm violet-blue light exerted a significant degree of microbicidal activity against a wide range of pathogens under diverse experimental conditions. CONCLUSIONS: The results exemplify the fiber's promise as a non-traditional approach for the prevention and/or therapeutic intervention of HAIs. Lasers Surg. Med. © 2019 The Authors. Lasers in Surgery and Medicine Published by Wiley Periodicals, Inc.

Fungal Ecology in a Tertiary Neonatal Intensive Care Unit after 16 Years of Routine Fluconazole Prophylaxis: No Emergence of Native Fluconazole-Resistant Strains.

OBJECTIVE: We analyzed the fungal ecology of a neonatal intensive care unit (NICU) over a period of 20 consecutive years following the introduction of routine fluconazole prophylaxis for all very low birth weight (VLBW; <1,500 g at birth) preterm babies. The aim was to detect the possible appearance of any ecological shifts toward the emergence of native fluconazole-resistant (NFR) fungal species. STUDY DESIGN: This was a retrospective analysis of clinical and microbiological data of VLBW preterm neonates admitted to a large tertiary NICU in Italy from 1997 to 2016 and surviving more than 3 days. Colonization and infection incidence rates, both for fluconazole-sensitive Candida spp and NFR Candida spp, were calculated for each year. We compared the first 4-year period without prophylaxis (1997-2000) with the last 16-year period with use of routine fluconazole prophylaxis (2000-2016). RESULTS: Overall, the incidence of fungal colonization significantly decreased after the introduction of prophylaxis (from 43.4% to 16.5%) as well as the systemic fungal infection incidence (from 16% to 3.7%). The proportion of colonization and infection by NFR Candida spp, on the other hand, did not increase, remaining stable throughout the 16 years of exposure to fluconazole. During the prophylaxis period, 42 of 1,172 VLBW neonates were colonized by NFR species (3.6%), and of them 11 developed a systemic infection (0.9%). During the preprophylaxis period, colonization by these particular species affected 11 of 285 VLBW neonates (3.8%), and a systemic infection involved 4 neonates (1.4%). CONCLUSION: Fluconazole prophylaxis is effective in decreasing Candida colonization and systemic infections in preterm neonates in NICU and did not cause emergence or shifts toward NFR Candida spp over a 16-year surveillance period.

Effect of Optisol Supplementation With 0.255 µg/mL Amphotericin B on Elimination of Yeast at 5°C.

PURPOSE: Fungal infections in lamellar keratoplasty are a growing concern. Optisol-GS does not contain an antifungal agent and supplementation with 0.255 µg/mL Amphotericin B (AmpB) has been considered. This study tested the ability of 0.255 µg/mL AmpB in Optisol-GS to eliminate yeast contamination of corneal tissue. METHODS: Three isolates of Candida albicans, 1 of Candida parapsilosis, and 1 of Candida glabrata were tested in Optisol with and without AmpB. Corneoscleral rims stored at -80°C were thawed and placed in 10 multiwell plates (4 per plate). The rims were inoculated with 4 respective loads of yeast: 0, 10, 10, and 10 colony-forming units in 2 sets of 5 for 5 yeasts. One set was filled with Optisol plus AmpB and the other with Optisol only. All 10 plates were incubated at cold storage (2°C-8°C) for 48 hours. After 48 hours, all corneal rims were placed into 10 mL of yeast extract peptone dextrose medium; a swab culture of each well was plated onto Sabouraud plates; and all plates with the remaining Optisol were incubated at 30°C. Yeast growth was monitored for 10 days. Minimum inhibitory concentration and minimum fungicidal concentration were determined. RESULTS: All corneoscleral specimens were positive regardless of fungal load or presence of AmpB. All controls remained negative. Minimum inhibitory concentrations and minimum fungicidal concentrations were equivalent and ranged between 0.5 and 2.0 µg/mL. CONCLUSIONS: AmpB at a concentration of 0.255 µg/mL in Optisol-GS at cold storage (2°C-8°C) over 48 hours did not eliminate yeast from corneal tissue.

Vitamin D-supplemented yogurt drink reduces Candida infections in a paediatric intensive care unit: a randomised, placebo-controlled clinical trial.

BACKGROUND: The prevalence of Candida infections in paediatric intensive care units (PICUs) has dramatically increased as a result of resistance to conventional anti-fungal treatments. Because vitamin D has been shown to exhibit fungicidal activity against Candida infection in an in vitro antimicrobial screening, we aimed to investigate the effect of vitamin D on Candida infections in the PICU. METHODS: Four hundred sixteen eligible children aged between 12 months to 5 years old admitted to the PICU, who were on broad-spectrum antibiotic therapy, participated in the study. Patients were randomly assigned to two study groups, receiving a plain yogurt drink (placebo group) or supplemented with 300 IU day-1 vitamin D (VD group). Primary outcome was defined as the incidences of Candida colonisation (Candida isolated from rectal swab) 14 days after enrollment. Secondary outcome measures were Candida growth in blood (candidaemia) and urine (candiduria). RESULTS: The prevalence of candiduria as well as candidaemia was significantly lower in the VD-treated group (26 cases) than in the placebo group (62 cases). The mean (SD) length of PICU stay was obviously lowered in the VD group [11.8 (1.2) days] compared to the placebo group [15.2 (2.3 days)], whereas cases of patient death were similar between the two groups. CONCLUSIONS: Supplementation of vitamin D effectively reduces infections of Candida in children who were critically ill and on broad-spectrum antibiotic treatment.

Dietary Supplementation With Medium-Chain Triglycerides Reduces Candida Gastrointestinal Colonization in Preterm Infants.

BACKGROUND: Candida is an important cause of infections in premature infants. Gastrointestinal colonization with Candida is a common site of entry for disseminated disease. The objective of this study was to determine whether a dietary supplement of medium-chain triglycerides (MCTs) reduces Candida colonization in preterm infants. METHODS: Preterm infants with Candida colonization (n = 12) receiving enteral feedings of either infant formula (n = 5) or breast milk (n = 7) were randomized to MCT supplementation (n = 8) or no supplementation (n = 4). Daily stool samples were collected to determine fungal burden during a 3-week study period. Infants in the MCT group received supplementation during 1 week of the study period. The primary outcome was fungal burden during the supplementation period as compared with the periods before and after supplementation. RESULTS: Supplementation of MCT led to a marked increase in MCT intake relative to unsupplemented breast milk or formula as measured by capric acid content. In the treatment group, there was a significant reduction in fungal burden during the supplementation period as compared with the period before supplementation (rate ratio, 0.15; P = 0.02), with a significant increase after supplementation was stopped (rate ratio, 61; P < 0.001). Fungal burden in the control group did not show similar changes. CONCLUSIONS: Dietary supplementation with MCT may be an effective method to reduce Candida colonization in preterm infants.

Clioquinol is a promising preventive morphological switching compound in the treatment of Candida infections linked to the use of intrauterine devices.

PURPOSE: Candida biofilm infections are frequently linked to the use of biomaterials and are of clinical significance because they are commonly resistant to antifungals. Clioquinol is an antiseptic drug and is effective against multidrug-resistant Candida. We investigated the effect of clioquinol and two other 8-hydroxyquinoline derivatives on Candida biofilm. METHODOLOGY: The ability to inhibit biofilm formation, inhibit preformed biofilm and remove established biofilms was evaluated using in vitro assays on microtitre plates. The action of clioquinol on biofilm in intrauterine devices (IUDs) was also investigated, describing the first protocol to quantify the inhibitory action of compounds on biofilms formed on IUDs. RESULTS: Clioquinol was found to be the most effective 8-hydroxyquinoline derivative among those tested. It prevented more than 90 % of biofilm formation, which can be attributed to blockade of hyphal development. Clioquinol also reduced the metabolic activity of sessile Candida but the susceptibility was lower compared to planktonic cells (0.031-0.5 µg ml-1 required to inhibit 50 % planktonic cells and 4-16 µg ml-1 to inhibit 50 % preformed biofilms). On the other hand, almost complete removal of biofilms was not achieved for the majority of the isolates. Candida spp. also showed the ability to form biofilm on copper IUD; clioquinol eradicated 80-100 % of these biofilms. CONCLUSION: Our results indicate a potential application in terms of biomaterials for 8-hydroxyquinoline derivatives. Clioquinol could be used as a coating to prevent morphological switching and thus prevent biofilm formation. Furthermore, clioquinol may have future applications in the treatment of Candida infections linked to the use of IUDs.

Molecular modeling and dynamic simulations of agglutinin-like family members from Candida albicans: New insights into potential targets for the treatment of candidiasis.

Infections by Candida albicans in immune compromised patients cause significant morbidity and mortality. In the search for potential molecular targets for drug development, the family of agglutinin-like proteins (Als) in C. albicans have been identified due to numerous attributes associated with high virulence, most prominently due to their role in adherence. Here, molecular models of individual members of the Als family illustrated common and unique structure features. Additionally, dynamic simulations were performed to display regions of high mobility. The results showed variations between Als members in the fluctuation of the A1B1 protein loop, which is located at the entrance to the peptide binding cavity, suggesting that this feature may be a factor contributing to observed differences in affinities to ligands and adhesion properties. Molecular docking results further suggested that ligand affinity could be influenced by movements in the A1B1 loop. In addition, a new site was identified in Als in an area adjacent to the peptide binding cavity that could serve as a new binding site for the design of future anti-adhesion ligands that provide increased specificity inhibiting Als proteins from C. albicans.

In vitro antifungal activity of cassia fistula extracts against fluconazole resistant strains of Candida species from HIV patients.

BACKGROUND: Candida species is the fourth common cause of blood stream infections all over the world which is life threatening. Invasive candidiasis leads to increased mortality and morbidity especially in immunosuppressed. The antifungal resistance pattern in high-risk patients is major concern. PURPOSE: The present study was to access the anticandidal activity of leaves, bark and seeds of Cassia fistula against fluconazole resistant Candida species, C. albicans, C. glabrata, C. krusei, C. tropicalis, C. kefyr and C. parapsilosis isolated from HIV patients. The predominant phytochemical component responsible for fungicidal activity was to be accessed. MATERIAL AND METHODS: Ethanol, chloroform, petroleum ether and aqueous extracts of leaves, bark and seeds of C. fistula linn. was evaluated against Microbial type culture collection (MTCC) Candida strains and 21 fluconazole resistant clinical isolates. Antifungal activity was evaluated by agar diffusion and broth dilution techniques. The active phytochemical component present in the ethanol extract of seeds was accessed by high performance thin layer chromatography. The docking study was done with lanosterol 14-alpha demethylase, the azole drug target with the predominant phytochemical from the extract having antifungal activity. RESULTS: All the extracts of C. fistula showed excellent anticandidal activity. Ethanol extract of C. fistula seed exhibited the most inhibitory activity. C. krusei and C. parapsilosis were the most inhibited and C. kefyr was the least inhibited species. The predominant phytochemical active component of the ethanol extract of seed was gallic acid. Gallic acid showed excellent binding with lanosterol 14-alpha demethylase. CONCLUSION: The present study reports the antifungal activity of various extracts of Cassia fistula for the first time against fluconazole resistant Candida isolates. We can conclude that the polyphenolic compound gallic acid is a potent natural antifungal agent. Further research is needed to assess the pharmacokinetic property.

Inhibition of Candida albicans biofilm by pure selenium nanoparticles synthesized by pulsed laser ablation in liquids.

Selenoproteins play an important role in the human body by accomplishing essential biological functions like oxido-reductions, antioxidant defense, thyroid hormone metabolism and immune response; therefore, the possibility to synthesize selenium nanoparticles free of any contaminants is exciting for future nano-medical applications. This paper reports the first synthesis of selenium nanoparticles by femtosecond pulsed laser ablation in de-ionized water. Those pure nanoparticles have been successfully used to inhibit the formation of Candida albicans biofilms. Advanced electron microscopy images showed that selenium nanoparticles easily adhere on the biofilm, then penetrate into the pathogen, and consequently damage the cell structure by substituting with sulfur. 50% inhibition of Candida albicans biofilm was obtained at only 25 ppm. Finally, the two physical parameters proved to affect strongly the viability of Candida albicans are the crystallinity and particle size.

Future therapies targeted towards eliminating Candida biofilms and associated infections.

INTRODUCTION: Candida species are common human commensals and cause either superficial or invasive opportunistic infections. The biofilm form of candida as opposed to its suspended, planktonic form, is predominantly associated with these infections. Alternative or adjunctive therapies are urgently needed to manage Candida infections as the currently available short arsenal of antifungal drugs has been compromised due to their systemic toxicity, cross-reactivity with other drugs, and above all, by the emergence of drug-resistant Candida species due to irrational drug use. Areas covered: Combination anti-Candida therapies, antifungal lock therapy, denture cleansers, and mouth rinses have all been proposed as alternatives for disrupting candidal biofilms on different substrates. Other suggested approaches for the management of candidiasis include the use of natural compounds, such as probiotics, plants extracts and oils, antifungal quorum sensing molecules, anti-Candida antibodies and vaccines, cytokine therapy, transfer of primed immune cells, photodynamic therapy, and nanoparticles. Expert commentary: The sparsity of currently available antifungals and the plethora of proposed anti-candidal therapies is a distinct indication of the urgent necessity to develop efficacious therapies for candidal infections. Alternative drug delivery approaches, such as probiotics, reviewed here is likely to be a reality in clinical settings in the not too distant future.

[MIKAMINOM ANTIFUNGAL THERAPY IN NEWBORNS AND INFANTS WITH SURGICAL PATHOLOGY].

Prolonged empiric and etiotropic therapy of multidrug-resistant or pan-resistant bacterial flora in different gestation age newborns has led to the growth of resistant fungalflora in intencive care units (ICU). According to risk factors and rating scales every child of ICU undergoing the abdominal cavity surgery is threatened the development of a fungal infection and requires antifungal therapy appointment or causal prophylactic. In recent years, before the advent of medications of the group of echinocandins, therapy of invasive fungal infections has been a challenge. Currently alternative drug to diflucane in neonates and infants is micafungine (mycamine) in the dose of 2-8 mg/kg/day, depending on the signs of infestation and severity of the condition.

Candidiasis: a fungal infection--current challenges and progress in prevention and treatment.

Despite therapeutic advances candidiasis remains a common fungal infection most frequently caused by C. albicans and may occur as vulvovaginal candidiasis or thrush, a mucocutaneous candidiasis. Candidiasis frequently occurs in newborns, in immune-deficient people like AIDS patients, and in people being treated with broad spectrum antibiotics. It is mainly due to C. albicans while other species such as C. tropicalis, C. glabrata, C. parapsilosis and C. krusei are increasingly isolated. OTC antifungal dosage forms such as creams and gels can be used for effective treatment of local candidiasis. Whereas, for preventing spread of the disease to deeper vital organs, candidiasis antifungal chemotherapy is preferred. Use of probiotics and development of novel vaccines is an advanced approach for the prevention of candidiasis. Present review summarizes the diagnosis, current status and challenges in the treatment and prevention of candidiasis with prime focus on host defense against candidiasis, advancements in diagnosis, probiotics role and recent progress in the development of vaccines against candidiasis.

Levantamento de extratos vegetais com ação anti-Candida no período de 2005-2013 / Survey of plant extracts with anti-Candida activity in the 2005-2013 period

Entre as micoses relevantes em saúde pública destaca-se a candidíase, infecção oportunista que acomete o homem e animais. A enfermidade era considerada pouco frequente na medicina veterinária, porém relatos demonstram um aumento considerável, assim como a resistência aos antifúngicos. Com isso, pesquisas têm sido desenvolvidas visando encontrar substâncias bioativas frente ao gênero Candida. Desta forma, objetivou-se reunir dados das bases Scielo e ScienceDirect com informações entre os anos de 2005-2013 referentes à ação anti-Candida de diferentes extratos vegetais. Foi encontrado um total de 78 famílias e 208 espécies de plantas com atividade frente à Candida spp., destacando-se as famílias Asteraceae, Geraniaceae, Myrtaceae, Fabaceae, Lamiaceae, Rubiaceae, Verbenaceae e Anacardiaceae, com extratos diclorometânicos, aquosos, etanólicos, metanólico, frações e subfrações, sendo as folhas a parte vegetal mais utilizada. As plantas descritas apresentaram ação anti-Candida, porém algumas necessitam concentrações muito altas dos extratos com pequena inibição de crescimento/eliminação destas leveduras, ocorrendo variações, principalmente, quanto ao método de avaliação, tipo de extrato, parte vegetal, e procedência dos isolados fúngicos. Chama a atenção a raridade dos estudos com isolados de animais, principalmente de casos clínicos. Por fim, destacam-se as famílias Asteraceae e Geraniaceae que apresentaram maior número de espécies vegetais com atividade, podendo ser uma fonte de investigação frente à Candida spp.

Among the relevant mycoses in public health, one that stands out is candidiasis, an opportunistic infection that affects humans and animals. The disease was considered uncommon in veterinary medicine, but reports show a significant increase, as well as resistance, to conventional antifungal agents. Therefore, research has been undertaken aimed at finding bioactive substances from plants that fight against Candida. Thus, the objective of this work was to gather the databases SciELO and ScienceDirect with information between the years 2005 and 2013 concerning the anti-Candida activity of different plant extracts. A total of 78 families and 208 species of plants with activity against Candida spp. was found highlighting the Asteraceae, Geraniaceae, Myrtaceae, Fabaceae, Lamiaceae, Rubiaceae, Verbenaceae and Anacardiaceae families, with dichloromethane, aqueous, ethanol and methanol extracts and fractions and subfractions, being the leaf the most used plant part. The plants described showed anti-Candida activity, but some require very high concentrations of the extracts with little growth inhibition / elimination of these yeasts, with variations related mainly to the method of assessment, type of extract, plant parts and origin of the fungal isolates. The rarity of studies with isolates from animals, mainly clinical cases, draws attention. Finally, we highlight the Asteraceae and Geraniaceae families, which had a greater number of plant species with activity and which may be a source of research against Candida spp.