Temporal stability of the healthy human skin microbiome following dead sea climatotherapy

Michael Brandwein; Garold Fuks; Avigail Israel; Ashraf Al-Ashhab; Deborah Nejman; Ravid Straussman; Emmilia Hodak; Marco Harari; Doron Steinberg; Zvi Bentwich; Noam Shental; Shiri Meshner

doi:10.2340/00015555-2769

Temporal stability of the healthy human skin microbiome following dead sea climatotherapy

Michael Brandwein, Garold Fuks, Avigail Israel, Ashraf Al-Ashhab, Deborah Nejman, Ravid Straussman, Emmilia Hodak, Marco Harari, Doron Steinberg, Zvi Bentwich, Noam Shental, Shiri Meshner

Weizmann Institute of Science, The Hebrew University of Jerusalem, Open University of Israel

Research output: Contribution to journal › Article › peer-review

Abstract

Dead Sea climatotherapy (DSC) is a therapeutic modality for a variety of chronic skin conditions, yet there has been scarce research on the relationship between the cutaneous microbiota and disease states in response to DSC. We characterized the skin bacterial and fungal microbiome of healthy volunteers who underwent DSC. Bacterial community diversity remained similar before and after treatment, while fungal diversity was significantly reduced as a result of the treatment. Individuals showed greater inter-individual than temporal bacterial community variance, yet the opposite was true for fungal community composition. We further identified Malassezia as the genus driving temporal mycobiome variations. The results indicate that the microbiome remains stable throughout DSC, while the mycobiome undergoes dramatic community changes. The results of this study will serve as an important baseline for future investigations of microbiome and mycobiome temporal phenomena in diseased states.

Original language	American English
Pages (from-to)	256-261
Number of pages	6
Journal	Acta Dermato-Venereologica
Volume	98
Issue number	2
DOIs	https://doi.org/10.2340/00015555-2769
State	Published - 1 Feb 2018

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Climatotherapy
Skin microbiome
Skin mycobiome

All Science Journal Classification (ASJC) codes

Dermatology

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10.2340/00015555-2769

Cite this

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title = "Temporal stability of the healthy human skin microbiome following dead sea climatotherapy",

abstract = "Dead Sea climatotherapy (DSC) is a therapeutic modality for a variety of chronic skin conditions, yet there has been scarce research on the relationship between the cutaneous microbiota and disease states in response to DSC. We characterized the skin bacterial and fungal microbiome of healthy volunteers who underwent DSC. Bacterial community diversity remained similar before and after treatment, while fungal diversity was significantly reduced as a result of the treatment. Individuals showed greater inter-individual than temporal bacterial community variance, yet the opposite was true for fungal community composition. We further identified Malassezia as the genus driving temporal mycobiome variations. The results indicate that the microbiome remains stable throughout DSC, while the mycobiome undergoes dramatic community changes. The results of this study will serve as an important baseline for future investigations of microbiome and mycobiome temporal phenomena in diseased states.",

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T1 - Temporal stability of the healthy human skin microbiome following dead sea climatotherapy

AU - Brandwein, Michael

AU - Fuks, Garold

AU - Israel, Avigail

AU - Al-Ashhab, Ashraf

AU - Nejman, Deborah

AU - Straussman, Ravid

AU - Hodak, Emmilia

AU - Harari, Marco

AU - Steinberg, Doron

AU - Bentwich, Zvi

AU - Shental, Noam

AU - Meshner, Shiri

PY - 2018/2/1

Y1 - 2018/2/1

N2 - Dead Sea climatotherapy (DSC) is a therapeutic modality for a variety of chronic skin conditions, yet there has been scarce research on the relationship between the cutaneous microbiota and disease states in response to DSC. We characterized the skin bacterial and fungal microbiome of healthy volunteers who underwent DSC. Bacterial community diversity remained similar before and after treatment, while fungal diversity was significantly reduced as a result of the treatment. Individuals showed greater inter-individual than temporal bacterial community variance, yet the opposite was true for fungal community composition. We further identified Malassezia as the genus driving temporal mycobiome variations. The results indicate that the microbiome remains stable throughout DSC, while the mycobiome undergoes dramatic community changes. The results of this study will serve as an important baseline for future investigations of microbiome and mycobiome temporal phenomena in diseased states.

AB - Dead Sea climatotherapy (DSC) is a therapeutic modality for a variety of chronic skin conditions, yet there has been scarce research on the relationship between the cutaneous microbiota and disease states in response to DSC. We characterized the skin bacterial and fungal microbiome of healthy volunteers who underwent DSC. Bacterial community diversity remained similar before and after treatment, while fungal diversity was significantly reduced as a result of the treatment. Individuals showed greater inter-individual than temporal bacterial community variance, yet the opposite was true for fungal community composition. We further identified Malassezia as the genus driving temporal mycobiome variations. The results indicate that the microbiome remains stable throughout DSC, while the mycobiome undergoes dramatic community changes. The results of this study will serve as an important baseline for future investigations of microbiome and mycobiome temporal phenomena in diseased states.

KW - Climatotherapy

KW - Skin microbiome

KW - Skin mycobiome

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JO - Acta Dermato-Venereologica

JF - Acta Dermato-Venereologica

IS - 2

ER -

Temporal stability of the healthy human skin microbiome following dead sea climatotherapy

Abstract

UN SDGs

Keywords

All Science Journal Classification (ASJC) codes

Access to Document

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