Polycystic Ovary Syndrome Clinical Trial
Official title:
The Role of Dysbiosis of Gut Microbiota in the Pathogenesis of Polycystic Ovary Syndrome.
Polycystic ovary syndrome (PCOS) has a significant impact on women's health, but its pathogenesis is not yet clear. Dysbiosis of gut microbiota may play a role in the pathological change of PCOS. Most of the current researches are still limited to the use of amplicon sequencing to compare the basic taxonomic differences of gut microbiota between PCOS patients and normal controls. Overall analysis of microbiome species, genes, function, metabolism, and immunity in PCOS is still lacked. In this research, we would perform metagenomic sequencing to find the characteristics of gut microbiota of PCOS and to explore their correlations with metabolic, immune, and clinical symptoms. Finally, different interventions (lifestyle interventions, lifestyle interventions + oral probiotic, lifestyle interventions+ compound oral contraceptives) would be used to explore the change of gut microbiome in PCOS patients. This research will not only help the understanding of the pathophysiology of PCOS, but also provide a reference for the selection of clinical treatment options.
1. Data quality assurance: ① all inspections and measurements will be performed by either
the hospital or the sequencing company personnel according to standard operating
procedures (SOPs), except for saliva and stool samples, which will be self-collected by
patients. For sample collection, we will provide text descriptions of the SOPs as well
as video instruction. Designated staff will be assigned for support and can be contacted
if participants have any queries concerning sample collection; ② a case report form
(CRF) will be prepared according to the current SOPs, and detailed instructions will be
provided to ensure consistency in data collection. At the same time, each CRF will be
properly stored at least 5 years for verification and backtracking; ③ all experimental
data will be logged into the database to ensure information accuracy based on the
existing data; ④ we will keep the contact information of each participant, remind them
of precautions during participation, and conduct regular follow-ups.
2. Sample size determination: The number of participants is based on comparable sample
sizes in the literature. In this trial, there will be 50 healthy individuals (control
group) and 150 PCOS (polycystic ovary syndrome) patients. The 150 PCOS patients will be
randomly assigned to three intervention groups. This sample size accounts for a
plausible insufficiency of data caused by patient dropouts and withdrawals before the
study is completed. The participation cycle is of approximately four months, followed by
a 2-year follow-up.
3. Metagenomic sequencing technology Metagenomic sequencing is the main technique used in
this study. Metagenomics, also known as economics, was first proposed by Handelman and
studies the molecular composition of microbial populations, their interactions, and gene
functions.
In medicine, metagenomics compares the structural and functional changes of human
microbial communities under normal and disease states. It can analyze the diversity and
the functional differences of microbial communities from healthy individuals and from
patients with diseases, thus determine how diseases relate to changes in the microbial
communities and in their respective metabolic networks. Therefore, metagenomics provides
theoretical evidence for disease prevention, detection, and treatment. At present, the
internationally renowned Human Microbiome Project (HMP, http://www.hmpdacc.org/) and the
Metagenomics of the Human Intestinal Tract (MetaHIT) are typical applications of
metagenomics in medicine.
[Metagenomic species, genes, and functional annotation]
① Data quality control: the sequenced raw data will contain a certain amount of
low-quality data, so quality control must be performed. Only high-quality data can
correctly reflect the actual occurrence of microorganisms in the sample.
② Metagenome assembly: based on Clean Data, individual samples will be assembled
separately at first, then reads that do not participate in the assembling above will be
combined and mixed for assembly. This will increase the sequencing depth of
low-abundance species in each sample and provide more sequencing information for each
species.
③ Gene prediction: MetaGeneMark will be used for gene prediction based on single samples
and mixed-assembled scaftigs. The redundancy of all predicted genes will be reduced to
obtain a Uniq gene set. Then, the Clean Data of each sample will be compared to the gene
set and the abundance of the gene set will be determined for each sample.
④ Species annotation: Clean Data will be used for quality control. It will be compared
with an annotated according to reference genome databases of bacteria, archaea, viruses,
and fungi from NCBI. A species abundance table will be obtained for each sample at
different classification levels.
⑤ Functional annotation: functional annotation and abundance statistics will be based on
the Uniq gene set and the KEGG database.
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