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1H NMR- based metabolomics approaches as non-invasive tools for diagnosis of endometriosis A Comparative Study of Blood Levels of Manganese, Some Macroelements and Heavy Metals in Obese and Non-Obese Polycystic Ovary Syndrome Patients A Comparative Study of the Gut Microbiota Associated With Immunoglobulin a Nephropathy and Membranous Nephropathy A comparative study of the gut microbiota in immune-mediated inflammatory diseases-does a common dysbiosis exist? A comprehensive analysis of breast cancer microbiota and host gene expression A comprehensive analysis of breast cancer microbiota and host gene expression A cross-sectional analysis about bacterial vaginosis, high-risk human papillomavirus infection, and cervical intraepithelial neoplasia in Chinese women A cross-sectional pilot study of birth mode and vaginal microbiota in reproductive-age women A metabonomics approach as a means for identification of potentialbiomarkers for early diagnosis of endometriosis A More Diverse Cervical Microbiome Associates with Better Clinical Outcomes in Patients with Endometriosis: A Pilot Study A Multi-Omic Systems-Based Approach Reveals Metabolic Markers of Bacterial Vaginosis and Insight into the Disease A New Approach to Polycystic Ovary Syndrome: The Gut Microbiota A Review of the Anti-inflammatory Properties of Clindamycin in the Treatment of Acne Vulgaris A Systematic Review and Meta-Analysis of Premenstrual Syndrome with Special Emphasis on Herbal Medicine and Nutritional Supplements. Adherence to the Mediterranean Diet, Dietary Patterns and Body Composition in Women with Polycystic Ovary Syndrome (PCOS)

Characterization of the gut microbiota in polycystic ovary syndrome with dyslipidemia Original paper

Researched by:

  • Divine Aleru ID
    Divine Aleru

    User avatarI am a biochemist with a deep curiosity for the human microbiome and how it shapes human health, and I enjoy making microbiome science more accessible through research and writing. With 2 years experience in microbiome research, I have curated microbiome studies, analyzed microbial signatures, and now focus on interventions as a Microbiome Signatures and Interventions Research Coordinator.

April 27, 2025

  • Women’s Health
    Women’s Health

    Women’s health, a vital aspect of medical science, encompasses various conditions unique to women’s physiological makeup. Historically, women were often excluded from clinical research, leading to a gap in understanding the intricacies of women’s health needs. However, recent advancements have highlighted the significant role that the microbiome plays in these conditions, offering new insights and potential therapies. MicrobiomeSignatures.com is at the forefront of exploring the microbiome signature of each of these conditions to unravel the etiology of these diseases and develop targeted microbiome therapies.

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  • User avatar
    Divine Aleru

    User avatarI am a biochemist with a deep curiosity for the human microbiome and how it shapes human health, and I enjoy making microbiome science more accessible through research and writing. With 2 years experience in microbiome research, I have curated microbiome studies, analyzed microbial signatures, and now focus on interventions as a Microbiome Signatures and Interventions Research Coordinator.

Researched by:

  • Divine Aleru ID
    Divine Aleru

    User avatarI am a biochemist with a deep curiosity for the human microbiome and how it shapes human health, and I enjoy making microbiome science more accessible through research and writing. With 2 years experience in microbiome research, I have curated microbiome studies, analyzed microbial signatures, and now focus on interventions as a Microbiome Signatures and Interventions Research Coordinator.

Last Updated: 2025

Microbiome Signatures identifies and validates condition-specific microbiome shifts and interventions to accelerate clinical translation. Our multidisciplinary team supports clinicians, researchers, and innovators in turning microbiome science into actionable medicine.

Divine Aleru

I am a biochemist with a deep curiosity for the human microbiome and how it shapes human health, and I enjoy making microbiome science more accessible through research and writing. With 2 years experience in microbiome research, I have curated microbiome studies, analyzed microbial signatures, and now focus on interventions as a Microbiome Signatures and Interventions Research Coordinator.

What Was Studied?

This research focused on the gut microbiota in patients with Polycystic Ovary Syndrome (PCOS), particularly those with dyslipidemia (PCOS.D). The study aimed to identify and compare gut microbial compositions in individuals with PCOS, those with PCOS and dyslipidemia, and healthy controls. It also explored how these microbiota imbalances correlate with metabolic conditions such as lipid profiles and sex hormone levels.

Who Was Studied?

The study enrolled 52 participants, including 18 patients diagnosed with PCOS, 18 with PCOS and dyslipidemia (PCOS.D), and 16 healthy women serving as controls. These individuals were recruited from the First Affiliated Hospital of Anhui Medical University, ensuring the participants met the criteria for each group based on their clinical and metabolic parameters.

What Were the Most Important Findings?

The key findings of this study were related to the gut microbiota dysbiosis observed in patients with PCOS. The results showed significant microbial differences compared to both PCOS-only patients and healthy controls. Specifically, the PCOS.D group exhibited a higher abundance of Clostridium while Faecalibacterium and Holdemanella were notably lower in abundance. This imbalance was linked to lipid metabolism dysfunctions, such as elevated triglycerides (TG), total cholesterol (TC), and low-density lipoprotein cholesterol (LDL-C) levels. In contrast, Faecalibacterium, a genus producing butyrate, was negatively correlated with TG and TC levels, suggesting its potential role in regulating lipid metabolism. Additionally, Pseudomonas, a genus associated with steroid metabolism, was negatively correlated with luteinizing hormone (LH) and LDL-C levels, further suggesting a complex interaction between gut microbiota and metabolic health in PCOS patients.

What Are the Implications of This Study?

The findings suggest that gut microbiota imbalances, especially in the abundance of Faecalibacterium and Clostridium, may play a crucial role in the pathogenesis of dyslipidemia in PCOS patients. This opens the possibility of targeting the gut microbiota for therapeutic interventions, particularly for managing lipid metabolism and improving metabolic health in these individuals. The study also highlights the need to explore further the mechanisms by which specific microbial genera influence lipid profiles and sex hormone levels, potentially guiding future precision medicine approaches for PCOS treatment.

Polycystic ovary syndrome (PCOS)

Polycystic ovary syndrome (PCOS) is a common endocrine disorder that affects women of reproductive age, characterized by irregular menstrual cycles, hyperandrogenism, and insulin resistance. It is often associated with metabolic dysfunctions and inflammation, leading to fertility issues and increased risk of type 2 diabetes and cardiovascular disease.

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