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Current Microbiology May 2022Antibiotic resistance and the hazardous nature of synthetic drugs is threatening issue in the health sector. The alternative for this problem is to focus on plants that...
Antibiotic resistance and the hazardous nature of synthetic drugs is threatening issue in the health sector. The alternative for this problem is to focus on plants that attribute to various compounds that exhibit therapeutic properties. Therefore, the study aims to evaluate the antimicrobial efficacy of Salacia oblonga leaf and root extracts against tested human pathogens. The S. oblonga extracts showed a significant zone of inhibition against bacteria and fungi. The leaf and root extracts of S. oblonga are prepared using low polar to high polar solvents in the Soxhlet apparatus and tested on the selected bacterial and fungal strains. Agar well diffusion and broth dilution methods evaluate antibacterial activity, antifungal activity, and Minimum Inhibitory Concentration (MIC) of extracts. Among the extracts tested, the ethyl acetate extract of root showed more antimicrobial activity against the tested bacterial and fungal strains. The most susceptible bacterial and fungal species against ethyl acetate extract are Micrococcus luteus, Mycobacterium tuberculosis, Microsporum canis, Trichophyton interdigitale, and Microsporum gypseum. The MIC for bacteria ranged from 13.0 to > 200 µg/ml, whereas for fungi, the MIC ranged from 25.9 to > 200 µg/ml. Ethyl acetate extract of root with 100 µg/ml concentration showed 29.1 mm and 28.7 mm zone of inhibition against bacterial strains M. luteus and M. tuberculosis, respectively. The ethyl acetate extract of root with a 100 µg/ml concentration showed 15.8, 15.2, and 15.6 mm zone of inhibition against fungal isolates M. canis, T. interdigitale, and M. gypseum, respectively. The activity of root and leaf extracts increased in a concentration-dependent manner, and further, the compounds isolated from the crude extracts of leaf and root showed antimicrobial activity. Structural elucidation of isolated compounds Lambertic acid and Ferruginol was done using NMR spectroscopy. Reports indicate that Lambertic acid was isolated previously, but the isolation of hydroxy Ferruginol from S. oblonga leaf extract was reported unprecedented.
Topics: Anti-Bacterial Agents; Anti-Infective Agents; Bacteria; Humans; Microbial Sensitivity Tests; Plant Extracts; Salacia
PubMed: 35612657
DOI: 10.1007/s00284-022-02888-4 -
Journal de Mycologie Medicale Aug 2022Nannizzia incurvata, a species belonging to the Nannizzia gypsea complex, is considered a neglected pathogen.
BACKGROUND
Nannizzia incurvata, a species belonging to the Nannizzia gypsea complex, is considered a neglected pathogen.
OBJECTIVE
To detected N. incurvata isolates from dermatophytosis patients in Hue city - Viet Nam, and test the antifungal susceptibility of this species. Moreover, fungal capability to produce hydrolytic enzymes was evaluated.
METHODS
Patients' samples were collected and cultured on Sabouraud-chloramphenicol-cycloheximide medium. Dermatophytes isolates were initially macroscopically and microscopically identified. ITS PCR-RFLP and ITS rDNA sequences were performed to determine and confirm species. An ITS Neighbor-Joining phylogenetic tree evaluated the genetic relationship among isolates. Fungal hydrolytic enzymes were examined, including lipase, phospholipase and protease. Antifungal susceptibility testing was carried out by the disk diffusion method. MICs of itraconazole, voriconazole, and terbinafine against these isolates were determined by the broth microdilution method.
RESULTS
Twelve isolates of N. gypsea complex were preliminary morphologically identified. PCR-RFLP and ITS-rDNA sequencing identified and confirmed dermatophytes as N. incurvata strains, respectively. An evident polymorphism among isolates was highlighted in the phylogenetic tree. All isolates showed the activity of lipase, phospholipase, and protease production. Overall, all N. incurvata isolates were susceptible to itraconazole, voriconazole, clotrimazole, miconazole, and terbinafine. Few isolates were susceptible to griseofulvin, and none of them were susceptible to fluconazole.
CONCLUSIONS
There was a presence of polyclonal N. incurvata isolates in dermatophytosis patients from Hue city, identified by PCR-RLFP and confirmed by ITS sequencing. We confirmed PCR-RLFP as a reliable technique to identify this species. Azole and terbinafine are the optimal choices for N. incurvata treatment except for fluconazole.
Topics: Antifungal Agents; Arthrodermataceae; DNA, Ribosomal; Drug Resistance, Fungal; Fluconazole; Humans; Itraconazole; Lipase; Microbial Sensitivity Tests; Peptide Hydrolases; Phospholipases; Phylogeny; Terbinafine; Tinea; Vietnam; Voriconazole
PubMed: 35550973
DOI: 10.1016/j.mycmed.2022.101291 -
Archivos Argentinos de Pediatria Jun 2022Microsporum gypseum is a geophilic fungus that can cause inflammatory skin lesions in heathy people. More extensive lesions have been described in immunocompromised...
Microsporum gypseum is a geophilic fungus that can cause inflammatory skin lesions in heathy people. More extensive lesions have been described in immunocompromised patients. We present a patient with extensive dermatophytosis, which mycological examination led the identification of Candida sp, Epidermophyton Floccosum and Trichophyton tonsurans and showed poor response to treatment with griseofulvina and itraconazol at usual doses. When skin biopsy was performed, it had positive culture for M. gypseum. Due to the extension and poor response to treatment, immunological assessment was performed and it showed a defect of STAT1 with gain of function (STAT 1-GOF). Patients with primary immunodeficiency are susceptible to fungal infections, especially Candida but also virus and bacteria, although to a lesser extent. The patient received long-term treatment with systemic imidazole antifungal recovering for the lesions.
Topics: Arthrodermataceae; Child; Dermatomycoses; Humans; Microsporum; Tinea; Trichophyton
PubMed: 35533125
DOI: 10.5546/aap.2022.e128 -
Journal of Applied Microbiology Aug 2022Indoor air quality in stables, cowsheds or henhouses has recently become in interest due to the potential risks of zoonotic infections. Cowsheds are commonly known to...
AIMS
Indoor air quality in stables, cowsheds or henhouses has recently become in interest due to the potential risks of zoonotic infections. Cowsheds are commonly known to have high fungal loads, particularly if insufficient attention is paid to the monitoring and control of the indoor microclimate around three elements, that is heating, ventilation and lighting. The aim of this study was to determine the concentrations and spectrum of dermatophyte propagules in the indoor air of cowsheds.
METHODS AND RESULTS
Air samples were collected on five farms, and the dermatophyte species were identified using MALDI-TOF MS analysis. The quantitative analysis of the fungal pollutants showed an average of 0.084 dermatophyte propagules (CFU) per m of flowing air in spring and 0.0239 CFU/m in the summer. Dermatophyte species were identified in case of 64.6% of the obtained colonies. Trichophyton verrucosum as dominant species was isolated on all five farms. In turn, Nannizzia gypsea was isolated on four farms and Trichophyton mentagrophytes as well as Paraphyton cookei were isolated on two farms.
CONCLUSIONS
This study demonstrated that indoor aerosol appears to be one of the underestimated risks of dermatophyte infections. Moreover, the risk of zoonotic infections is posed by airborne zoophilic dermatophytes, especially T. verrucosum, whose prevalence of infections has been increasing in recent years.
SIGNIFICANCE AND IMPACT OF THE STUDY
The ability of dermatophytes to infect animals and humans is thought to be a consequence of not only their adaptation to new ecological niches but also occurring as an aerosol component, which we demonstrate for the first time in this study. The microclimate of the cowshed may be an underestimated reservoir of zoophilic dermatophytes, which pose a zoonotic threat to farmers, animal breeders and veterinarians.
Topics: Animals; Arthrodermataceae; Attention; Dermatomycoses; Humans; Microsporum; Trichophyton; Zoonoses
PubMed: 35429221
DOI: 10.1111/jam.15580 -
Medicine Apr 2022Kerion Celsi, a severe form of tinea capitis, is generally caused by zoophilic and geophilic fungi. This is the first report of an unusual case of kerion Celsi caused by...
RATIONALE
Kerion Celsi, a severe form of tinea capitis, is generally caused by zoophilic and geophilic fungi. This is the first report of an unusual case of kerion Celsi caused by Microsporum gypseum in a 6-year-old boy.
PATIENT CONCERNS
A 6-year-old boy presented to the dermatology clinic with the complaint of multiple pustules, edematous plaques over the scalp with hair loss for 1 month.
DIAGNOSIS
Clinical and laboratory investigations, including reverse transcriptase-quantitative polymerase chain reaction, confirmed M gypseum causing kerion Celsi.
INTERVENTIONS
Upon combination therapy using oral itraconazole and oral prednisolone along with the topical terbinafine, kerion Celsi remitted in the patient.
OUTCOME
New hair growth was noted during the 4-month follow-up.
LESSON
We presented the first case of kerion Celsi infection secondary to M gypseum that was probably transmitted from a guinea pig.
Topics: Animals; Antifungal Agents; Arthrodermataceae; China; Guinea Pigs; Humans; Microsporum; Tinea Capitis
PubMed: 35421059
DOI: 10.1097/MD.0000000000028936 -
Scientific Reports Apr 2022Currently, investigations on the microbiota of sports centers and related facilities have been carried out in some countries, which showed that Microsporum gypseum,...
Currently, investigations on the microbiota of sports centers and related facilities have been carried out in some countries, which showed that Microsporum gypseum, Trichophyton mentagrophytes and T. tonsurans are important dermatoprotofungi. In China, some research on athletes and sports equipment between the fungal community and public health has made some interesting achievements. However, the bacterial group among them has not been reported. Therefore, The aim of this study was to uncover (I) gymnastic equipment is there potential pathogenic factors and (ii) is there any difference in the biomarker of bacterial in different types of gymnastic room? The samples were collected from the gymnastics halls of one university in western China and main sports equipment, including gymnastics carpets, moving barres, hoops and balls, as well as wall bars, parallel bars and horizontal bars. The 16S rDNA of all the samples was sequenced, and the analyses were performed using FaproTax, Bug base function prediction and Line Discriminant Analysis (LDA) Effect Size. A 16S rDNA sequence analysis revealed abundant bacterial species biodiversity on gymnasts and apparatuses from two gymnastics halls at a university in western China. An analysis using the FaproTax and Bugbase functional prediction platforms showed that there were some opportunistic pathogens on the athletes and equipment from the Rhythmic Gymnastics (RG) and Artistic Gymnastics (AG) halls, such as Staphylococcus and Corynebacteiaceae. Infectious agents associated with cancer induction and development, such as Ruminococcaceae, Veillonellaceae and Moraxellaceae, as well as microbial toxin producers with a potential impact on human health, were also detected. According to a line discriminant analysis (LDA effect size), the bacterial biomarker groups of the two gymnasiums were different at the phylum-genus level: for RG, Erysipelatoclostridium, Lachnospiraceae and Bacteroidales, while for AG, Rhizobiales. Based on the results of the investigation, we suggest that more comprehensive consideration should be given to indoor microbial biodiversity and related public health problems in school gymnasiums.
Topics: Athletes; China; Gymnastics; Humans; Microbiota; Sports Equipment
PubMed: 35383217
DOI: 10.1038/s41598-022-09355-x -
Medical Mycology Journal 2022Nannizzia gypsea, previously known as Microsporum gypseum, is a geophilic dermatophyte that infects humans from the soil. We isolated N. gypsea from a two-year-old girl...
Nannizzia gypsea, previously known as Microsporum gypseum, is a geophilic dermatophyte that infects humans from the soil. We isolated N. gypsea from a two-year-old girl with kerion celsi. Because of her serious medical condition, she was admitted to the pediatric ward immediately after birth. We struggled to identify the route of infection, and eventually identified her grandmother's handmade belt, which covered the endotracheal-tube-holding device, as the infection source. To prevent indirect transmission of pathogenic microorganisms from outside the hospital environment, our hospital prohibited the bringing of belongings from outside.
Topics: Arthrodermataceae; Child, Preschool; Female; Humans; Microsporum; Tinea Capitis
PubMed: 35228482
DOI: 10.3314/mmj.21-00021 -
Cureus Jan 2022Fungal infections may occur within tattoos. These include not only dermatophyte infections (tattoo-associated tinea) but also systemic mycoses (tattoo-associated...
Fungal infections may occur within tattoos. These include not only dermatophyte infections (tattoo-associated tinea) but also systemic mycoses (tattoo-associated systemic fungal infections). The PubMed search engine, accessing the MEDLINE database, was used to search for all papers with the terms: (1) tinea and tattoo, and (2) systemic fungal infection and tattoo. Tattoo-associated tinea corporis has been observed in 12 individuals with 13 tattoos; this includes the 18-year-old man who developed a dermatophyte infection, restricted to the black ink, less than one-month after tattoo inoculation on his left arm described in this report. Tattoo-associated tinea typically occurred on an extremity in the black ink. The diagnosis was established either by skin biopsy, fungal culture, and/or potassium hydroxide preparation. The cultured dermatophytes included , , , , and . Several sources for the tinea were documented: autoinfection (two patients), anthrophilic (tinea capitis from the patient's son), and zoophilic (either the patient's cat or dog). Three patients presented with tinea incognito resulting from prior corticosteroid treatment. Tinea appeared either early (within one month or less after inoculation during tattoo healing) in six patients or later (more than two months post-inoculation in a healed tattoo) in six patients. Injury to the skin from the tattoo needle, or use of non-sterile instruments, or contaminated ink, and/or contact with a human or animal dermatophyte source are possible causes of early tinea infection. Tattoo ink-related phenomenon (presence of nanoparticles, polycyclic aromatic hydrocarbons, and cytokine-enhancement) and/or the creation of an immunocompromised cutaneous district are potential causes of late tinea infection. Treatment with topical and/or oral antifungal agents provided complete resolution of the dermatophyte for all the patients with tattoo-associated tinea. Tattoo-associated systemic fungal infection has been reported in six patients: five men and one patient whose age, sex, immune status, and some tattoo features (duration, color, and treatment) were not reported. The onset of infection after tattoo inoculation was either within less than one month (two men), three months (two men), or 69 months (one man). The tattoo was dark (either black or blue) and often presented as papules (three men) or nodules (two men) that were either individual or multiple and intact or ulcerated. The lesion was asymptomatic (one man), non-tender (one man), or painful (one man). The systemic fungal organisms included species, , , , and . Contaminated tattoo ink was a confirmed cause of the systemic fungal infection in one patient; other postulated sources included non-professional tattoo inoculation, infected tattooing tool and/or ink in an immunosuppression host, and contaminated ritual tattooing instruments and dye. Complete resolution of the tattoo-associated systemic fungal infection occurred following systemic antifungal drug therapy. In conclusion, several researchers favor that tattoo inoculation can be implicated as a causative factor in the development of tattoo-associated tinea; however, in some of the men, tattoo-associated systemic fungal infection may have merely been coincidental.
PubMed: 35174019
DOI: 10.7759/cureus.21210 -
Biology Dec 2021Although keratinophilic fungi on avian feathers have been widely described, data from European literature are quite lacking regarding Mediterranean countries. The aim of...
Although keratinophilic fungi on avian feathers have been widely described, data from European literature are quite lacking regarding Mediterranean countries. The aim of the present study was therefore to evaluate the occurrence of fungal species on feathers of different avian species in Italy. A total of 378 feather samples from both aquatic (n = 254) and terrestrial birds (n = 124), for a total of 30 bird species, were cultured for keratinophilic fungi. Fungal isolates were recognized by their macro- and micro-scopical morphology, and results were corroborated by PCR and sequencing. Keratinophilic fungi belonging to 11 different species (, , , , sp., , sp., and ) were isolated from 71 animals (18.8%). The frequency of isolation of keratinophilic species from terrestrial birds was significantly higher in waterfowl. Migratory birds in Italy have been proven to carry pathogenic fungi such as dermatophytes, (), besides saprophytic species.
PubMed: 34943235
DOI: 10.3390/biology10121317 -
Mycoses Feb 2022Members of the Nannizzia gypsea complex are globally the most common geophilic dermatophytes which cause infection in animals and human. Although the susceptibility...
BACKGROUND
Members of the Nannizzia gypsea complex are globally the most common geophilic dermatophytes which cause infection in animals and human. Although the susceptibility patterns of anthropophilic or zoophilic dermatophyte species to antifungal agents are well documented, the effectiveness of such drugs against geophilic species have rarely been explored.
OBJECTIVES
This study was aimed to evaluate the in vitro antifungal activity of common and new antifungals against a set of environmental and clinical geophilic dermatophyte isolates.
METHODS
108 soil and clinical geophilic isolates from two genera Nannizzia (N. fulva n = 59; N. gypsea n = 43) and Arthroderma (A. quadrifidum n = 4; A. gertleri n = 1; A. tuberculatum n = 1) were included in the study. The in vitro antifungal susceptibility patterns of eight common and new antifungals against the isolates were determined according to broth microdilution method and by CLSI M38-A3 (3rd edition) protocol.
RESULTS
MIC values across all isolates from five species ranged as: luliconazole: 0.0002-0.002 µg/ml, terbinafine: 0.008-0.125 µg/ml, efinaconazole: 0.008-0.125 µg/ml, ciclopirox olamine: 0.03-0.5 µg/ml, itraconazole: 0.125-1 µg/ml, amorolfine hydrochloride: 0.125-4 µg/ml, griseofulvin: 0.25-2 µg/ml and tavaborole: 1-8 µg/ml, respectively.
CONCLUSION
Luliconazole, terbinafine and efinaconazole exhibited the highest in vitro efficacy, regardless of the dermatophyte species. Further surveillance studies are recommended to confirm the implication of such in vitro data for the clinical recovery rate of dermatophytosis with geophilic species following antifungal therapy.
Topics: Antifungal Agents; Arthrodermataceae; Imidazoles; Itraconazole; Microbial Sensitivity Tests; Terbinafine; Triazoles
PubMed: 34861084
DOI: 10.1111/myc.13408