Abstract
To study the feasibility of 16S rRNA metagenomics using next generation sequencing (NGS) along with broad range PCR assay for 762 bp region of 16S rRNA gene with Sanger's sequencing, in microbial diagnosis of culture negative endophthalmitis. Vitreous fluid from 16 culture negative and one culture positive endophthalmitis patients, admitted to a tertiary care hospital were processed for targeted metagenomics. NGS of 7 variable regions of 16S rRNA gene was done using Ion Torrent Personal Genome Machine (PGM). Sequence data were analyzed using Ion Reporter software using QIIME and BLSATN tools and Greengenes and NCBI–Genbank databases. Bacterial genome sequences were detected in 15 culture negative and culture positive vitreous specimens. The sequence reads varied between 25,245–540,916 with read length between 142bp–228bp and coverage depth was 41.0X and 81.2X. Operational taxonomic unit (OTUs) of multiple bacterial genera and species were detected in 13 culture negative vitreous specimens and OTUs of a single bacterial species were detected in 2 culture negative and 1 culture positive specimens; one negative specimen had no bacterial DNA. Maximum numbers of OTUs detected by NGS for a bacterial species from any vitreous specimen was the one which was detected and identified by Sanger's sequencing in broad range PCR. All the bacteria were belonging to clinically relevant species. Broad range PCR with sequencing failed to identify bacteria from 5 of the 16 (31.25%) culture negative vitreous specimens. Metagenomics could detect and identify bacterial pathogens in 15 of the 16 culture negative vitreous specimen's up to species level. With rapidly decreasing cost, metagenomics has a potential to be used widely in endophthalmitis diagnosis, in which culture negativity is usually high.
Highlights
Endophthalmitis is a sight-threatening condition leading to vision loss
In the current study, targeted 16S rRNA metagenomics covering 7 of the 9 variable regions of 16S rRNA gene followed by generation sequencing was undertaken for detection of bacterial pathogens in 17 vitreous fluids on Ion Personal Genome Machine (PGM) platform along with broad range PCR assay for 762 bp region of 16S rRNA followed by Sanger's sequencing in a tertiary care eye hospital
Vitreous specimen were collected by ophthalmologist from clinically suspected endophthalmitis patients admitted to the Dr RP Centre for Ophthalmic Sciences, All India Institute of Medical Sciences, New Delhi, India, and undergoing vitrectomy/vitreous biopsy; 200 μL of vitreous was collected by the ophthalmologist after obtaining informed consent between April 2016 and January 2018
Summary
Endophthalmitis is a sight-threatening condition leading to vision loss. A significant proportion is of infectious origin (usually bacterial) which may be due to cataract surgery, intravitreal injection or trauma (Deshmukh et al, 2019). Metagenomic 16S rRNA deep sequencing (MDS) is an unbiased high-throughput method that can detect all microorganism/ pathogens present in patient's clinical specimens. This has the potential to identify known as well as unknown, novel and fastidious organisms which could not be detected earlier (Langley et al, 2015; Shea et al, 2017). In the current study, targeted 16S rRNA metagenomics covering 7 of the 9 variable regions of 16S rRNA gene followed by generation sequencing was undertaken for detection of bacterial pathogens in 17 vitreous fluids on Ion PGM platform along with broad range PCR assay for 762 bp region of 16S rRNA followed by Sanger's sequencing in a tertiary care eye hospital
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