人类椎间盘拥有独特的微生物组，微生态失调决定着健康和疾病。

Human intervertebral discs harbour a unique microbiome and dysbiosis determines health and disease.

机构信息

Department of Spine Surgery, Ganga Hospital, 313, Mettupalayam Road, Coimbatore, India.

Ganga Research Centre, No 91, Mettupalayam Road, Coimbatore, 641030, India.

出版信息

Eur Spine J. 2020 Jul;29(7):1621-1640. doi: 10.1007/s00586-020-06446-z. Epub 2020 May 14.

DOI:10.1007/s00586-020-06446-z

PMID:32409889

Abstract

BACKGROUND

To document the role of sub-clinical infections in disc disorders and investigate the existence of microbiome in intervertebral discs (IVD).

METHODS

Genomic DNA from 24 lumbar IVDs [8-MRI normal discs (ND) from brain dead yet alive organ donors, 8-disc herniation (DH), 8-disc degeneration (DD)] was subjected to 16SrRNA sequencing for profiling the diversity of human disc microbiome in health and disease. The disc microbiome was further compared to established human gut and skin microbiomes.

RESULTS

All healthy MRI normal discs from brain dead yet alive organ donors also had a rich bacterial presence. A total of 424 different species (355-ND, 346-DD, and 322-DH) were detected, with 42.75% OTUs being classified at kingdom level, 44% at the phylum level, 22.62% at genus level, and 5.5% at species level. Varying biodiversity and abundance between healthy and diseased discs were documented with protective bacteria being abundant in normal discs, and putative pathogens abundant in DD and DH. Propionibacterium acnes had a similar but lower abundance to other pathogens in all three groups ND (3.07%), DD (3.88%), DH (1.56%). Fifty-eight bacteria were common between gut and IVD microbiomes, 29 between skin and IVD microbiomes, and six common to gut/skin/IVD.

CONCLUSION

Our study challenges the hitherto concept of sterility in healthy IVD and documented a microbiome even in MRI normal healthy discs. The varying abundance of bacteria between ND, DD, and DH documents 'dysbiosis' as a possible etiology of DD. Many known pathogens were identified in greater abundance than Propionibacterium acnes, and there was evidence for the presence of the gut/skin/spine microbiome axis.

摘要

背景

为了记录亚临床感染在椎间盘疾病中的作用，并研究椎间盘（IVD）中微生物组的存在。

方法

对 24 个腰椎 IVD[8 个来自脑死亡但活着的器官供体的 MRI 正常椎间盘（ND）、8 个椎间盘突出症（DH）、8 个椎间盘退变（DD）]的基因组 DNA 进行 16SrRNA 测序，以分析健康和疾病状态下人椎间盘微生物组的多样性。进一步将椎间盘微生物组与已建立的人类肠道和皮肤微生物组进行比较。

结果

所有来自脑死亡但活着的器官供体的 MRI 正常椎间盘均存在丰富的细菌。共检测到 424 种不同的物种（355-ND、346-DD 和 322-DH），其中 42.75%的 OTUs 归为界，44%归为门，22.62%归为属，5.5%归为种。健康和患病椎间盘之间存在不同的生物多样性和丰度，保护性细菌在正常椎间盘丰富，而潜在病原体在 DD 和 DH 中丰富。痤疮丙酸杆菌在 ND（3.07%）、DD（3.88%）和 DH（1.56%）三组中的丰度与其他病原体相似但较低。肠道和 IVD 微生物组之间有 58 种细菌共有，皮肤和 IVD 微生物组之间有 29 种共有，肠道/皮肤/IVD 共有 6 种。

结论

我们的研究挑战了健康 IVD 无菌的概念，并记录了即使在 MRI 正常健康的椎间盘也存在微生物组。ND、DD 和 DH 之间细菌丰度的变化记录了“生态失调”作为 DD 的可能病因。与痤疮丙酸杆菌相比，许多已知的病原体的丰度更高，并且存在肠道/皮肤/脊柱微生物组轴的证据。

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人类椎间盘拥有独特的微生物组，微生态失调决定着健康和疾病。

Human intervertebral discs harbour a unique microbiome and dysbiosis determines health and disease.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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