Fungal infections of the skin and nails are a common global problem. The high prevalence of superficial mycotic infections shows that 20-25% of the world's population has skin mycoses, making these one of the most frequent forms of infection. Pathogens responsible for skin mycoses are primarily anthropophilic and zoophilic dermatophytes from the genera Trichophyton (T.), Microsporum (M.) and Epidermophyton (E.). There appears to be considerable inter- and intra-continental variability in the global incidence of these fungal infections. Trichophyton rubrum, T. interdigitale (mentagrophytes var. interdigitale), M. canis, M. audouinii, T. tonsurans and T. verrucosum are the most common, but the attack rates and incidence of specific mycoses can vary widely. Local socio-economic conditions and cultural practices can also influence the prevalence of a particular infection in a given area. For example, tinea pedis (athlete's foot) is more prevalent in developed countries than in emerging economies and is likely to be caused by the anthropophilic germ T. rubrum. In poorer countries, scalp infections (tinea capitis) caused by T. soudanense or M. audouinii are more prevalent. This review summarises current epidemiological trends for fungal infections and focuses on dermatomycosis of glabrous skin on different continents.
Atypical Candida strains were isolated from patients in Madagascar, Angola and Germany. These isolates were slow growing and were unable to produce chlamydospores. They had atypical carbohydrate assimilation profiles. All strains were unable to assimilate the amino sugars N-acteylglucosamine and glucosamine as well as the disaccharide trehalose and the organic acid DL-lactate. They were germ-tube-positive in serum, but only some of these organisms produced pseudohyphae after a long incubation. As shown by Fourier transform infrared spectroscopy the atypical Candida isolates clustered as a monophyletic group different from C. albicans and C. dubliniensis. All strains belonged to C. albicans serotype B. Considering all data presented here, this group of Candida strains differs from any other known member of the genus Candida. Therefore, it is suggested to represent a new species within the genus Candida for which the name Candida africana is proposed.
The immediate antimicrobial effects of the APP prototype source were almost comparable to OCT without any signs of cytotoxicity. This pilot study is limited by current configurations of the plasma source, where the narrow plasma beam made it difficult to cover larger wound surface areas and in order to avoid untreated areas of the wound bed, smaller wounds were assigned to the APP-treatment group. This limits the significance of AAP-related effects on the wound healing dynamics, as smaller wounds tend to heal faster than larger wounds. However, clinical wound healing studies on a larger scale now seem justifiable. A more advanced plasma source prototype allowing the treatment of larger wounds will address APP's influence on healing dynamics, synergetic treatment with current antiseptics and effects on multiresistant bacteria.
The prevalence of onychomycosis is increasing steadily, sevenfold alone in the US within the last twenty years. An important aspect in this development is the demographic development of the human population of the industrial countries like Germany. A fast and accurate laboratory diagnosis is essential for successful treatment because 50% of the cases are misdiagnosed when relying on the clinical appearance only. The current diagnosis of dermatophytosis, based on direct microscopy and culture of the clinical specimen, is problematic given the lacking specificity of the former and the length of time needed for the latter. Molecular techniques can help to solve these problems. In recent years, a number of in-house PCR assays have been developed to identify dermatophytes directly from clinical specimens. Based on the "Mikrobiologisch-infektiologischen Qualitätsstandards (MIQ) für Nukleinsäure-Amplifikationstechniken" and the MIQE guideline (Minimum Information for Publication of Quantitative Real-Time PCR Experiments) 11 studies are reviewed which were published between 2007 and 2010. The present article evaluates the quality of the PCR assays regarding false positive and false negative results due to contamination, PCR format, statistical analysis, and diagnostic performance of the studies. It shows that we are only at the beginning of providing high quality PCR diagnosis of dermatophytes.
Under the assignment of the ECMM (European Confederation of Medical Mycology) a survey regarding frequency, infectious spectrum and therapy of tinea capitis was conducted in Germany in 1998. In this survey 154 dermatology practitioners and 19 hospitals throughout Germany participated. There were 394 conditions reported, 377 with and 17 without identification of the infectious agent. The most frequent infectious agent was M. canis (n= 216; 54,8%) before T. mentagrophytes (n = 58; 14,7 %), T. verrucosum (n = 32; 8,1 %), T. violaceum (n = 24; 6, 1 %) and T. tonsurans (n = 15; 3,8%). Zoophilic dermatophytes (n = 306; 81,2%) predominated over anthropophilic species (n = 71; 18,8%) in the ratio of 4:1. Tinea capitis microsporica showed to be a more frequent infectious disease again which due to its high virulence and contagiosity of the infectious agent represents a therapeutical problem. Tinea capitis occured in an average age of 17,3 years. The preferred therapeutical regimen was a combination of systemic and topical antimycotics in 61,5% (n = 176) of the reported cases (n = 286). A solely topical or systemical monotherapy was reported in 25,2 % (n = 72) respectively 13,3 % (n = 38) of the patients. In case of systemic antimycotics the most frequent used drugs were griseofulvin (43,0%, n = 101), fluconazole (25,1%, n = 59) or itraconazole (18,7%; n = 44), in topical preparations ciclopiroxolamine dominated (53,3 %, n = 121) prior to clotrimazole (13,2%, n = 30) and terbinafine (7,1 %, n = 16). Different from the situation in Germany and in Southern Europe some of the western European countries show a tendency of an increase of anthropophilic agents in tinea capitis.
The application of tissue-tolerable electrical plasma (TTP) is highly efficient in skin antisepsis. However, the germs are not only located on the skin surface, but also in the hair follicles, from where they re-colonize the skin surface after antisepsis, e.g. The objective of the present study was to show that plasma is able to reach the follicular reservoir for antisepsis. For this purpose, a solution containing particulate chlorophyll dye had been applied onto porcine skin samples. The fluorescent properties of the dye changed during the plasma tissue interaction. The results demonstrate that TTP penetrates deep into the hair follicles, whereupon the hairs act as a conductor for the plasma. Therefore, it can be concluded that micro-organisms of the follicular reservoir are destroyed more efficiently by the plasma than by conventional liquid antiseptics. μmHistological image of a hair follicle colonized with fungi (pityrosporon ovale, PAS staining)
Trichophytia infection, paraphrased cuddly toy mycosis, occurs primarily in prepubertal children, occasionally in infants and adults. The presented case shows the highly contagious infection of four family members with Trichophyton mentagrophytes. Effective treatment requires detailed diagnostic: identifying the dermatophyte, finding the infection source, treating the infection carriers. Tinea must be treated systemically and topically because of infectivity and ignitability. Systemic terbinafine or fluconazole treatment and topical fixed combination isoconazole nitrate/diflucortolone valerate are recommended.
We describe a case of a 57-year-old patient with osteomyelitis at a finger of his right hand caused by Candida guilliermondii. The strains isolated were highly resistant to fluconazole and itraconazole. Using the three methods, microdilution, agardilation and E-test, the highest minimum inhibitory concentrations (MICs) amounted to > 256 micrograms ml-1 for fluconazole and > 32 micrograms ml-1 for itraconazole. To our knowledge, this is the first time such high values have been described for C. guilliermondii. They correlated with the therapeutic non-response to a triazole therapy in our patient. The patient was cured by partial amputation of the affected finger.
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