犬小孢子虫引起头癣外溢的皮肤镜及扫描电镜观察

Sang-Kyung Lee, Geon-Jong Lee, Kyung-Hwa Nam, Jin Park
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引用次数: 0

摘要

显示多个圆形红斑鳞状斑块,无毛区域有断发。皮肤镜检查显示,头发呈莫尔斯电码状,呈锐角之字形,发干上有横向白色条纹(图1A)。受影响头发的扫描电子显微镜显示,薄而受损的角质层覆盖着大量真菌关节分生孢子,对应于发干上的白色条纹(图1B-1E)。通过真菌培养和聚合酶链式反应确定犬微孢子虫为致病种。患者接受了口服灰黄霉素(125 mg/天)和局部特比萘芬治疗8周。毛发的皮肤癣菌感染可导致三种不同的真菌入侵模式:外刺桐、内刺桐或蚕豆,具体取决于所涉及的特定物种1。头癣通常与犬微孢子虫有关,其特征是关节分生孢子聚集在发干外部,导致头发角质层2的周向破坏。随着受感染的头发继续生长,受感染的部分会上升到头皮表面以上,由于脆弱性增加,更容易弯曲或断裂。这导致出现莫尔斯电码状或弯曲的锯齿状头发,带有横向白色条纹,表明真菌入侵导致发干局部弱化3。了解这些信息可以帮助临床医生预测真菌侵袭的类型,并了解在头癣病例中观察到的独特皮肤镜特征背后的形成机制。
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Dermoscopic and Scanning Electron Microscopic Finding of Ectothrix Tinea Capitis by Microsporum canis
revealed multiple round erythematous scaly patches with broken hair in the hairless area. Dermoscopic examination showed Morse code-like and sharp-angled zigzag hair with transverse white bands across the hair shaft (Fig. 1A). Scanning electron microscopy of the affected hair revealed thin and destroyed cuticles covered with numerous fungal arthro-conidia corresponding to the white bands on the hair shaft (Fig. 1B-1E). Microsporum canis was identified as the causative species via fungal culture and polymerase chain reaction. The patient received a treatment of oral griseofulvin (125 mg/day) and topical terbinafine for 8 weeks. Dermatophyte infections of the hair can result in three distinct patterns of fungal invasion: ectothrix, endothrix, or favus, depending on the specific species involved 1 . Ectothrix tinea capitis, often associated with Microsporum canis, is characterized by the accumulation of arthroconidia around the exterior of the hair shaft, leading to the circumferential destruction of the hair cuticle 2 . As the infected hair continues to grow, the affected portion rises above the scalp surface and becomes more prone to bending or breaking due to increased fragility. This gives rise to the appearance of Morse code-like or bent zigzag hair with transverse white bands, indicating focal weakening of the hair shaft caused by fungal invasion 3 . Understanding this information can assist clinicians in predicting the type of fungal invasion and comprehending the formation mechanism behind the distinctive dermoscopic features observed in cases of ectothrix tinea capitis.
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来源期刊
Journal of Mycology and Infection
Journal of Mycology and Infection Medicine-Infectious Diseases
CiteScore
0.20
自引率
0.00%
发文量
13
期刊介绍: The Journal of mycology and infection (Acronym: JMI, Abbreviation: J Mycol Infect) aims to publish articles of exceptional interests in the field of medical mycology. The journal originally was launched in 1996 as the Korean Journal of Medical Mycology and has reformed into the current state beginning on March of 2018. The contents of the journal should elucidate important microbiological fundamentals and provide qualitative insights to respective clinical aspects. JMI underlines the submission of novel findings and studies in clinical mycology that are enriched by analyses achieved through investigative methods. The journal should be of general interests to the scientific communities at large and should provide medical societies with advanced breadth and depth of mycological expertise. In addition, the journal supplements infectious diseases in adjunct to the field of mycology to address a well-rounded understanding of infectious disorders. The Journal of mycology and infection, which is issued quarterly, in March, June, September and December each year, published in English. The scope of the Journal of mycology and infection includes invited reviews, original articles, case reports, letter to the editor, and images in mycology. The journal is compliant to peer-review/open access and all articles undergo rigorous reviewing processes by our internationally acknowledged team of editorial boards. The articles directed to publication should encompass in-depth materials that employ scholastic values of mycology and various infectious diseases. Articles responding to critical methodology and outcomes which have potential to enhance better understanding of mycology and infectious diseases are also suitable for publication.
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