Микробиота глазной поверхности у детей с миопией

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Микробиота глазной поверхности у детей с миопией. / Orenburkina, O I; Rezbaeva, G N; Dudurich, V V; Babushkin, A E; Sogomonian, K S; Danilova, A A; Danilov, L G.

In: Вестник офтальмологии, Vol. 141, No. 3, 01.07.2025, p. 5-12.

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

Author

Orenburkina, O I ; Rezbaeva, G N ; Dudurich, V V ; Babushkin, A E ; Sogomonian, K S ; Danilova, A A ; Danilov, L G. / Микробиота глазной поверхности у детей с миопией. In: Вестник офтальмологии. 2025 ; Vol. 141, No. 3. pp. 5-12.

BibTeX

@article{cce2cd03a9994814b7303c394222e955,

title = "Микробиота глазной поверхности у детей с миопией",

abstract = "UNLABELLED: A healthy ocular surface is characterized by relatively stable and comparatively low microbial diversity. However, pathological conditions can provoke shifts in the composition of bacterial taxa, which may be associated, among other factors, with the progression of myopia.PURPOSE: This study compared the taxonomic diversity of the conjunctival microbiota in children with varying degrees of myopia and those without clinically confirmed myopia.MATERIAL AND METHODS: Ocular surface samples were obtained from 29 children aged 6-17 years with myopia (58 eyes) and from 12 children of the control group aged 9-17 years (24 eyes). The taxonomic composition of the conjunctival microbiota was analyzed using 16S ribosomal RNA gene (rRNA) sequencing, followed by microbiome profiling through bioinformatics and statistical tools.RESULTS: The ocular surface microbiota in children with myopia demonstrated higher alpha diversity compared to the control group. This was confirmed by values of the Chao (reflecting low-abundance taxa) and Shannon (reflecting overall bacterial diversity - higher diversity means higher index; optimal value; 3.1-4.2) indices. The results revealed a clear trend toward differentiation in bacterial composition between myopic and control groups. These differences were associated with changes in the relative abundance of opportunistic bacteria depending on the degree of myopia.CONCLUSION: The taxonomic diversity of the ocular microbiota at the genus level in patients with varying degrees of myopia was characterized by a higher number of taxonomic units compared to the control group. The general trend is an increase in the biodiversity of the bacterial composition due to an increase in the relative representation of opportunistic microorganisms. Further research on the influence of the ocular microbiota on the progression of myopia is needed.",

keywords = "Humans, Child, Myopia/diagnosis, Male, Female, Adolescent, Microbiota, Conjunctiva/microbiology, Bacteria/genetics, RNA, Ribosomal, 16S/genetics, Disease Progression, metagenomic research, myopia, ocular microbiome, ocular microbiota, ocular surface, ribosomal RNA sequencing",

author = "Orenburkina, {O I} and Rezbaeva, {G N} and Dudurich, {V V} and Babushkin, {A E} and Sogomonian, {K S} and Danilova, {A A} and Danilov, {L G}",

year = "2025",

month = jul,

day = "1",

doi = "10.17116/oftalma20251410315",

language = "русский",

volume = "141",

pages = "5--12",

journal = "Вестник офтальмологии",

issn = "0042-465X",

publisher = "Медицина",

number = "3",

}

RIS

TY - JOUR

T1 - Микробиота глазной поверхности у детей с миопией

AU - Orenburkina, O I

AU - Rezbaeva, G N

AU - Dudurich, V V

AU - Babushkin, A E

AU - Sogomonian, K S

AU - Danilova, A A

AU - Danilov, L G

PY - 2025/7/1

Y1 - 2025/7/1

N2 - UNLABELLED: A healthy ocular surface is characterized by relatively stable and comparatively low microbial diversity. However, pathological conditions can provoke shifts in the composition of bacterial taxa, which may be associated, among other factors, with the progression of myopia.PURPOSE: This study compared the taxonomic diversity of the conjunctival microbiota in children with varying degrees of myopia and those without clinically confirmed myopia.MATERIAL AND METHODS: Ocular surface samples were obtained from 29 children aged 6-17 years with myopia (58 eyes) and from 12 children of the control group aged 9-17 years (24 eyes). The taxonomic composition of the conjunctival microbiota was analyzed using 16S ribosomal RNA gene (rRNA) sequencing, followed by microbiome profiling through bioinformatics and statistical tools.RESULTS: The ocular surface microbiota in children with myopia demonstrated higher alpha diversity compared to the control group. This was confirmed by values of the Chao (reflecting low-abundance taxa) and Shannon (reflecting overall bacterial diversity - higher diversity means higher index; optimal value; 3.1-4.2) indices. The results revealed a clear trend toward differentiation in bacterial composition between myopic and control groups. These differences were associated with changes in the relative abundance of opportunistic bacteria depending on the degree of myopia.CONCLUSION: The taxonomic diversity of the ocular microbiota at the genus level in patients with varying degrees of myopia was characterized by a higher number of taxonomic units compared to the control group. The general trend is an increase in the biodiversity of the bacterial composition due to an increase in the relative representation of opportunistic microorganisms. Further research on the influence of the ocular microbiota on the progression of myopia is needed.

AB - UNLABELLED: A healthy ocular surface is characterized by relatively stable and comparatively low microbial diversity. However, pathological conditions can provoke shifts in the composition of bacterial taxa, which may be associated, among other factors, with the progression of myopia.PURPOSE: This study compared the taxonomic diversity of the conjunctival microbiota in children with varying degrees of myopia and those without clinically confirmed myopia.MATERIAL AND METHODS: Ocular surface samples were obtained from 29 children aged 6-17 years with myopia (58 eyes) and from 12 children of the control group aged 9-17 years (24 eyes). The taxonomic composition of the conjunctival microbiota was analyzed using 16S ribosomal RNA gene (rRNA) sequencing, followed by microbiome profiling through bioinformatics and statistical tools.RESULTS: The ocular surface microbiota in children with myopia demonstrated higher alpha diversity compared to the control group. This was confirmed by values of the Chao (reflecting low-abundance taxa) and Shannon (reflecting overall bacterial diversity - higher diversity means higher index; optimal value; 3.1-4.2) indices. The results revealed a clear trend toward differentiation in bacterial composition between myopic and control groups. These differences were associated with changes in the relative abundance of opportunistic bacteria depending on the degree of myopia.CONCLUSION: The taxonomic diversity of the ocular microbiota at the genus level in patients with varying degrees of myopia was characterized by a higher number of taxonomic units compared to the control group. The general trend is an increase in the biodiversity of the bacterial composition due to an increase in the relative representation of opportunistic microorganisms. Further research on the influence of the ocular microbiota on the progression of myopia is needed.

KW - Humans

KW - Child

KW - Myopia/diagnosis

KW - Male

KW - Female

KW - Adolescent

KW - Microbiota

KW - Conjunctiva/microbiology

KW - Bacteria/genetics

KW - RNA, Ribosomal, 16S/genetics

KW - Disease Progression

KW - metagenomic research

KW - myopia

KW - ocular microbiome

KW - ocular microbiota

KW - ocular surface

KW - ribosomal RNA sequencing

UR - https://www.mendeley.com/catalogue/b94cafb0-c8ac-3049-9146-b40666ffdf2a/

U2 - 10.17116/oftalma20251410315

DO - 10.17116/oftalma20251410315

M3 - статья

C2 - 40591379

VL - 141

SP - 5

EP - 12

JO - Вестник офтальмологии

JF - Вестник офтальмологии

SN - 0042-465X

IS - 3

ER -

ID: 137813195