Home Research Feeds Trans-ethnic gut microbiota signatures of type 2 diabetes in Denmark and India

Trans-ethnic gut microbiota signatures of type 2 diabetes in Denmark and IndiaOriginal paper

Researched by:

  • Karen Pendergrass

Last Updated: 2026-07-04

Karen Pendergrass
Karen Pendergrass

Karen Pendergrass is a microbiome researcher specializing in microbiome-targeted interventions (MBTIs). She systematically analyzes scientific literature to identify microbial patterns, develop hypotheses, and validate interventions. As the founder of the Microbiome Signatures Database, she bridges microbiome research with clinical practice. In 2012, based on her own investigative research, she became the first documented case of FMT for Celiac Disease, four years before the first published case study.

Read More
Location
Denmark
India
Sample Site
Feces
Species
Homo sapiens

What was studied?

This study examined the composition and functional potential of the gut microbiota in people with type 2 diabetes (T2D) across two distinct populations, Denmark and South India. The researchers used 16S ribosomal RNA gene amplicon sequencing on stool samples to compare the gut microbiota between countries and between people with and without T2D. A central goal was to determine whether any microbiome signature of T2D is universal across ethnicities and diets, or whether such signatures are instead country-specific. The study also looked at microbial associations with treatment using the anti-hyperglycemic drug metformin.

Who was studied?

The study population consisted of 279 Danish study participants and 294 Indian study participants, for a total of 573 people. Stool samples were collected from both cohorts and profiled using 16S rRNA gene amplicon sequencing. The abstract does not specify additional demographic details such as age or sex distribution within these two national cohorts.

What were the most important findings?

The gut microbiota differed measurably between the Danish and Indian populations, reflecting country-specific patterns in diversity and composition. Samples were stratified to look for both global (trans-ethnic) and country-specific microbial signatures associated with T2D and with metformin treatment. This approach allowed the researchers to separate microbial features that might be universal markers of T2D from those that are shaped by local diet or ethnic background. The abstract does not report specific taxa, effect sizes, or statistical values for these comparisons.

What are the greatest implications of this study?

By directly comparing two ethnically and geographically distinct populations, this study helps clarify whether gut microbiota changes linked to type 2 diabetes represent a truly universal signature or are instead dependent on diet and ethnic origin. This distinction matters for whether microbiome-based diagnostics or interventions for T2D could be applied globally or would need to be tailored to specific populations. Separating country-specific findings from trans-ethnic ones also helps prevent overgeneralizing microbiome associations discovered in a single population. The findings support continued large-scale, multi-population microbiome research as a foundation for any future universal T2D biomarkers.

Join the Roundtable

Contribute to published consensus reports, connect with top clinicians and researchers, and receive exclusive invitations to roundtable conferences.

Join the Waitlist and help shape the future of microbiome medicine.