Now in nature: Our newly published study demonstrates that #CapScan can non-invasively profile the human intestinal microbiome and metabolome under physiological conditions for the first time. Read more: buff.ly/3VRpl0y

Now in Nature Metabolism: Using #CapScan to collect samples of the upper intestinal tract, UC Davis researchers provide first glimpses into the dynamics of metabolites in the intestines, IDing ~1,900 metabolites, some never before detected in the human gut. buff.ly/3nPTXTG

Using a specially designed capsule, researchers take a fantastic voyage through the digestive system, sampling metabolites and microbes from small intestine to colon Biological Sciences Envivo Bio ucdavis.edu/news/capsule-c…

Online now! A multi-omic trip through the human gut dlvr.it/Snr0hj

Our team collaborated on this groundbreaking study in nature using an ingestible device #CapScan Envivo Bio to reveal the spatiotemporal structure of the human gastrointestinal tract, using a multi-omics approach.

Ingestible Device Profiles and Peers into the Microbiome and Metabolome #Microbiome #gut #intestines #Metabolomics #Biotechnology genengnews.com/topics/omics/m… via Genetic Engineering & Biotechnology News

Congrats to the Stanford University, UC Davis & Envivo Bio team for their publication in Nature. Their work is the cornerstone for KC Huang’s agility project with the Wu Tsai Human Performance Alliance to study microbiome diversity & inflammation in the GI tract during endurance exercise.

Unprecedented access to the intestines with the ability to collect regional samples spanning the entire GI tract—all via a device the size of a vitamin pill. Learn more about our first-of-its-kind ingestible sampling device, #CapScan. envivo.bio #GITwitter

Given the notoriously difficult challenge of sampling the gut, we know very little about the causative roles of the gut #microbiome and associated metabolites in a variety of diseases. We're planning to change that. #CapScan envivo.bio