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Dermatology and Therapy Feb 2020An increased incidence of tinea capitis has been observed over the last few decades. Trichoscopy is a non-invasive, in-office method helpful in establishing the correct... (Review)
Review
INTRODUCTION
An increased incidence of tinea capitis has been observed over the last few decades. Trichoscopy is a non-invasive, in-office method helpful in establishing the correct diagnosis in patients with hair loss and inflammatory hair disorders. The objective was to review and analyze current data on the trichoscopy of tinea capitis.
METHODS
A systematic review of the literature was conducted using the PubMed, EBSCO and Scopus databases. The search terms included 'tinea capitis' combined with 'trichoscopy', 'dermatoscopy', 'dermoscopy', 'videodermatoscopy' or 'videodermoscopy'.
RESULTS
Of 326 articles, 37 were considered eligible for the quantitative analysis. The most characteristic (with a high predictive value) trichoscopic findings of tinea capitis included comma hairs (51%), corkscrew hairs (32%), Morse code-like hairs (22%), zigzag hairs (21%), bent hairs (27%), block hairs (10%) and i-hairs (10%). Other common, but not characteristic, trichoscopic features were broken hairs (57%), black dots (34%), perifollicular scaling (59%) and diffuse scaling (89%). Morse code-like hairs, zigzag hairs, bent hairs and diffuse scaling were only observed in Microsporum tinea capitis (8/29, 28%; 6/29, 21%; 4/29, 14% and 4/29, 14%, respectively). In Trichophyton tinea capitis, corkscrew hairs were more commonly detected compared to Microsporum tinea capitis (21/38, 55% vs 3/29, 10%).
CONCLUSION
The presence of characteristic trichoscopic features of tinea capitis is sufficient to establish the initial diagnosis and introduce treatment before culture results are available. Trichoscopy may be useful in distinguishing between Microsporum and Trichophyton tinea capitis.
PubMed: 31907867
DOI: 10.1007/s13555-019-00350-1 -
Pathogens (Basel, Switzerland) Aug 2022Dermatophytes are highly infectious fungi that cause superficial infections in keratinized tissues in humans and animals. This group of fungi is defined by their ability... (Review)
Review
Dermatophytes are highly infectious fungi that cause superficial infections in keratinized tissues in humans and animals. This group of fungi is defined by their ability to digest keratin and encompasses a wide range of species. Classification of many of these species has recently changed due to genetic analysis, potentially affecting clinical diagnosis and disease management. In this review, we discuss dermatophyte classification including name changes for medically important species, current and potential diagnostic techniques for detecting dermatophytes, and an in-depth review of , a prevalent zoonotic dermatophyte. Fungal culture is still considered the "gold standard" for diagnosing dermatophytosis; however, modern molecular assays have overcome the main disadvantages of culture, allowing for tandem use with cultures. Further investigation into novel molecular assays for dermatophytosis is critical, especially for high-density populations where rapid diagnosis is essential for outbreak prevention. A frequently encountered dermatophyte in clinical settings is , which causes dermatophytosis in humans and cats. is adapting to its primary host (cats) as one of its mating types (MAT1-2) appears to be going extinct, leading to a loss of sexual reproduction. Investigating strains around the world can help elucidate the evolutionary trajectory of this fungi.
PubMed: 36145389
DOI: 10.3390/pathogens11090957 -
Clinical Microbiology and Infection :... May 2018
Topics: Biofilms; Microsporum
PubMed: 29496600
DOI: 10.1016/j.cmi.2018.02.016 -
Clinical, Cosmetic and Investigational... 2020Dermatophytes are a group of keratinophilic fungi, which normally cause superficial infection of skin, hair and nails. Based on ecology, they are classified into three... (Review)
Review
Dermatophytes are a group of keratinophilic fungi, which normally cause superficial infection of skin, hair and nails. Based on ecology, they are classified into three groups: anthropophilic, zoophilic and geophilic. Superficial dermatophytic infection of the genital region is called genital dermatophytosis, tinea genitalis or pubo-genital dermatophytosis. In this review, we would like to discuss briefly, the various clinical presentations of genital dermatophytosis, current changes in the taxonomy and nomenclature, introduction of new diagnostic techniques and briefly describe some common dermatophytes and their sources. Also, there are serious concerns associated with the recent development of antifungal resistance among the dermatophytes. We are also facing the scenario of hard-to-treat dermatophytosis.
PubMed: 33061514
DOI: 10.2147/CCID.S262704 -
Frontiers in Bioengineering and... 2021Rising global populations due to medicinal advancements increases the patient population susceptible to superficial and severe fungal infections. Fungi often implicated... (Review)
Review
Rising global populations due to medicinal advancements increases the patient population susceptible to superficial and severe fungal infections. Fungi often implicated in these diseases includes the dermatophytes (., ., .) as well as species of the , . and genera In addition, increasing global populations leads to increasing agricultural demands. Thus, fungal infections of preharvested crops and stored food by plant pathogens such as and can have detrimental socioeconomic effects due to food insecurity. Current antifungal strategies are based mainly on small molecule antifungal drugs. However, these drugs are limited by poor solubility and bioavailability. Furthermore, antifungal resistance against these drugs are on the rise. Thus, antimicrobial polymers offer an alternative antifungal strategy. Antifungal polymers are characterised by cationic and hydrophobic regions where the cationic regions have been shown to interact with microbial phospholipids and membranes. These polymers can be synthetic or natural and demonstrate distinct antifungal mechanisms ranging from fungal cell membrane permeabilisation, cell membrane depolarisation or cell entry. Although the relative importance of such mechanisms is difficult to decipher. Due to the chemical properties of these polymers, they can be combined with other antimicrobial compounds including existing antifungal drugs, charcoals, lipids and metal ions to elicit synergistic effects. In some cases, antifungal polymers and nanocomposites show better antifungal effects or reduced toxicity compared to the widely used small molecule antifungal drugs. This review provides an overview of antimicrobial polymers and nanocomposites with antifungal activity and the current understanding of their antifungal mechanisms.
PubMed: 35004642
DOI: 10.3389/fbioe.2021.780328 -
Emerging Microbes & Infections Dec 2023Genomes of strains of the zoophilic dermatophyte from invasive (disseminated and subcutaneous) and noninvasive (tinea capitis) infections were compared. Especially the...
Genomes of strains of the zoophilic dermatophyte from invasive (disseminated and subcutaneous) and noninvasive (tinea capitis) infections were compared. Especially the disseminated strain showed significant syntenic rearrangements, including multiple translocations and inversions, and numerous SNPs and Indels in comparison to the noninvasive strain. In transcriptome analysis, both invasive strains were enriched for GO pathways related to components of the membrane, iron binding and heme binding, which possibly enables them to invade deeper into dermis and blood vessels. At 37 °C, invasive strains showed gene expression enriched for DNA replication, mismatch repair, N-glycan biosynthesis and ribosome biogenesis. The invasive strains were slightly less susceptible to multiple antifungal agents suggesting that acquired elevated drug resistance might be involved in the refractory disease courses. Patient with disseminated infection failed to respond to a combined antifungal treatment with itraconazole, terbinafine, fluconazole and posaconazole.
Topics: Humans; Transcriptome; Tinea Capitis; Microsporum; Antifungal Agents
PubMed: 37288745
DOI: 10.1080/22221751.2023.2219346 -
Antibiotics (Basel, Switzerland) Mar 2021The enzymatic and antifungal profiles of dermatophytes play an important role in causing infections in humans and animals. This study aimed to assess the virulence...
The enzymatic and antifungal profiles of dermatophytes play an important role in causing infections in humans and animals. This study aimed to assess the virulence factors produced by strains, in vitro antifungal profile and the relationship between virulence, antifungal profile and occurrence of lesions in animals and humans. A total of 100 strains from humans with ( = 10) and from animals presenting ( = 64) or not ( = 26) skin lesions was employed to evaluate phospholipase (Pz), hemolytic (Hz), lipase (Lz), catalase (Ca), and thermotolerance (GI) activities. In addition, in vitro antifungal profile was conducted using the CLSI broth microdilution method. A statistically significant difference ( < 0.05) in Lz and Ca values was revealed among strains from hosts with and without lesions. Voriconazole, terbinafine, and posaconazole were the most active drugs followed by ketoconazole, griseofulvin, itraconazole, and fluconazole in decreasing activity order. The significant positive correlation between azole susceptibility profile of and virulence factors (i.e., hemolysin and catalase) suggest that both enzyme patterns and antifungal susceptibility play a role in the appearance of skin lesions in animals and humans.
PubMed: 33809233
DOI: 10.3390/antibiotics10030296 -
Medical Mycology Journal 2019In a 2012-2014 epidemiological study of feline and canine dermatophytoses in Japan, we investigated the prevalence of fungi among 296 cats and 170 dogs treated at a... (Review)
Review
In a 2012-2014 epidemiological study of feline and canine dermatophytoses in Japan, we investigated the prevalence of fungi among 296 cats and 170 dogs treated at a veterinary clinic and 51 cats and dogs at an animal shelter at Fukui City in Japan. Microsporum canis was isolated from only one cat out of the 517 animals. Also, from 2012 to 2017, we analyzed isolates from 76 cats and 15 dogs with dermatophytoses at 14 veterinary clinics across 10 prefectures in Honshu and Shikoku. M. canis was the cause for 85 of the cases and Microsporum gypseum for the other six. M. canis infection routes in cats are thought to include stray cats as well as breeding facilities and pet shops, whereas for dogs, only breeding facilities and pet shops. Tinea was found in 18.7% (14/75) of the owners of these animals. We showed that microsatellite genotyping is useful for molecular epidemiological investigations such as determination of infection routes of M. canis.
Topics: Animals; Cat Diseases; Cats; Disease Reservoirs; Dog Diseases; Dogs; Genotyping Techniques; Humans; Japan; Microsporum; Prevalence; Time Factors; Tinea
PubMed: 31155570
DOI: 10.3314/mmj.19.001