Microorganisms Living in the Skin

A special issue of Pathogens (ISSN 2076-0817).

Deadline for manuscript submissions: closed (28 October 2022) | Viewed by 5615

Special Issue Editors


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Guest Editor
1. Department of Dermatology, Hospital Vithas Ntra. Sra. de Fátima (Chair), 36206 Vigo, Spain
2. Department of Health Sciences, University of Vigo, Campus of Vigo, As Lagoas, 36310 Vigo, Spain
Interests: hidradenitis; psoriasis; atopic dermatitis, biologic drugs; dermoscopy; ultrasonography; mycology; psicodermatology
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Department of Dermatology, Venereology and Allergology, Wroclaw Medical Uiversity, Wroclaw, Poland
Interests: medical mycology; superfical mycoses; dermatophytoses; epidemiology; diagnosis and treatment of tineas; psychosocial aspects of fungal infections

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Section of Dermatology, Department of Clinical Medicine and Surgery, University of Naples Federico II, 80131 Napoly, Italy
Interests: acne; inflammatory skin diseases (atopic dermatitis; hidradenitis; psoriasis); dermoscopy; melanoma; photodermatology and alopecia; dermocosmetological care of chemotherapy skin reaction “corpo ritrovato”
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Sección de Estudios de Posgrado e Investigación, Escuela Superior de Medicina, Instituto Politécnico Nacional, Plan de San Luis y Díaz Mirón, Ciudad de México 11340, Mexico
Interests: clinical microbiology; medical mycology; opportunistic mycoses; yeasts of the genus Candida; trichosporon; filamentous fungi; mucorales; dermatophytes; sporotrichosis; virulence factors; molecular epidemiology of fungal pathogens; infectious diseases
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Special Issue Information

Dear Colleagues,

The skin surface constitutes a complex ecosystem that supports different ecological niches. Its particular inhospitable environment, with an acidic pH and variable humidity conditions, among other characteristics, could make it difficult for microorganisms to proliferate. However, the skin microbiota, with an amazing capacity for adaptation, has evolved to become an important ally for human survival through a complex natural selection of resident microorganisms that prevent the colonization of other pathogens while working as a team with the immune system. In turn, the biotopes that harbor these microorganisms are as varied as the topography of the skin itself, and it is considered that nine out of ten human cells present symbiotic relationships with the microbiota. In human skin, we can find corineiform bacteria, staphylococci, and a smaller group made up of micrococci and Acinetobacter. Other species isolated from the skin include S. hominis, S. capitis, S. cohnii, S. haemolyticus, S. saprophyticus, S. wameri, S. xilosus, and S. simulans. Fungi such as Candida, Malassezia, Trichosporon, and Rhodotorula and mites such as Demodex folliculorum and Demodex brevis have also been isolated.

The advances in molecular techniques have been crucial for the current (even though still limited) understanding of the structure of the skin microbiota. Further investigation is needed, and research should focus on the defined aspects of the immune system–microbiota, in order to provide answers about why and what alterations in the skin ecosystem translate into diseases or a propensity for them and develop therapeutic modalities to ameliorate dysbiosis and counteract pathogens.

 In this Special Issue, we expect to gather several studies with a focus on skin microbiota in health; topography and variation by skin site; interpersonal variation; host factors; environmental factors; ecology and genomics; molecular analysis; common skin bacteria, fungi, and mites; skin disorders with a correlation to microbiota; impact of skin care products; and therapeutic opportunities. We look forward to your contribution.

Prof. Dr. Carmen Rodríguez-Cerdeira
Prof. Dr. Jacek C. Szepietowski
Prof. Gabriella Fabbrocini
Dr. Erick Martinez-Herrera
Guest Editors

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Keywords

  • skin flora
  • microbiota
  • ecosystem
  • microbiology
  • resident microbiota
  • transient microbiota
  • staphylococci and micrococci
  • cutaneous microbiota and host immunity
  • parasitic microbiota
  • fungal microbiota
  • skin microbiota variability
  • variations according to sex and age
  • pathological modifications
  • relationship of the microbiota with some dermatoses

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Published Papers (2 papers)

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Research

9 pages, 1834 KiB  
Article
Atypical Mycobacteriosis Due to Mycobacterium abscessus subsp. massiliense: Our Experince
by Carmen Rodríguez-Cerdeira, Rigoberto Hernández-Castro, Carlos Daniel Sánchez-Cárdenas, Roberto Arenas, Alejandro Meza-Robles, Sonia Toussaint-Caire, Carlos Atoche-Diéguez and Erick Martínez-Herrera
Pathogens 2022, 11(12), 1399; https://doi.org/10.3390/pathogens11121399 - 23 Nov 2022
Cited by 2 | Viewed by 2439
Abstract
Background: Members of Micobacterium. abscessus complex comprises three subspecies (M. abscessus subsp. Abscessus, M. abscessus subsp. Bolletii, and M. abscessus subsp. Massiliense) and are a rapid-growing nontuberculous mycobacteria present in different aquatic habitats and soil. It often causes a [...] Read more.
Background: Members of Micobacterium. abscessus complex comprises three subspecies (M. abscessus subsp. Abscessus, M. abscessus subsp. Bolletii, and M. abscessus subsp. Massiliense) and are a rapid-growing nontuberculous mycobacteria present in different aquatic habitats and soil. It often causes a wide spectrum of infections involving pulmonary infections, surgical wound infections, and infections related to mesotherapy, catheters, hemodialysis devices, endocarditis, and disseminated infections in immunocompromised individuals. Methods: In this article we comment on the most relevant aspects of nine patients with skin lesions caused by M. abscessus subsp. massiliense infection. Clinical characteristics, histopathology, and molecular identification were performed. Results: The patients in the clinical cases presented a history of trauma, tattoos, and physical therapy techniques. The most common treatments were minocycline and clindamycin, doxycycline, ceftriaxone, cephalexin, moxifloxacin, rifampicin, and trimethoprim-sulfamethoxazole. The evolution of the treated patients was acceptable, except for one patient, who showed a partial improvement. M. massiliense were identified in all clinical cases using a species-specific PCR. Conclusion: Our series consisted of nine cases of skin biopsies recorded in different years; for this reason, we do not have all the data necessary for a complete description, in particular in four cases, causing limitations in the manuscript, especially in the therapy used and the evolution of patients due to lack of follow-up. Full article
(This article belongs to the Special Issue Microorganisms Living in the Skin)
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4 pages, 342 KiB  
Article
Microbial Contamination of Preservative-Free Artificial Tears Based on Instillation Techniques
by Jee-Hye Lee, Min-Ji Kang, Ha-Eun Sim and Je-Hyung Hwang
Pathogens 2022, 11(5), 592; https://doi.org/10.3390/pathogens11050592 - 18 May 2022
Cited by 4 | Viewed by 2336
Abstract
Preservative-free artificial tears eliminate the side effects of preservatives but are prone to microbial contamination. This study evaluates the incidence of microbial contaminations in single-use vials of preservative-free 0.1% hyaluronate artificial tears. Based on what touched the vial tip during its first use, [...] Read more.
Preservative-free artificial tears eliminate the side effects of preservatives but are prone to microbial contamination. This study evaluates the incidence of microbial contaminations in single-use vials of preservative-free 0.1% hyaluronate artificial tears. Based on what touched the vial tip during its first use, 60 unit-dose vials (0.5 mL) were divided into groups A (no touch, n = 20), B (fingertip, n = 20), and C (lid margin, n = 20). The vials were recapped after the first use, and the residual solution was cultured 24 h later. The solution from 20 aseptically opened and unused vials was also cultured (group D). Microbial contamination rates were compared between the groups using the Fisher’s exact test. Groups B and C contained 45% (9/20) and 10% (2/20) contaminations while groups A and D contained undetected microbial growth. The culture positivity rates were significantly different between groups A and B (p = 0.001) and groups B and C (p = 0.013) but not between groups A and C (p = 0.487). We demonstrate a significantly higher risk of contamination when fingertips touch the vial mouth. Therefore, users should avoid the vial tip touching the fingers or eyelid during instillation to prevent contamination of the eye drops. Full article
(This article belongs to the Special Issue Microorganisms Living in the Skin)
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