Frontiers in Microbiomes (Jul 2024)

Spatially and temporally precise microbiome profiling in the small intestine using the SIMBA capsule with X-ray tracking

  • Gang Wang,
  • Sharanya Menon,
  • Lynn Wilsack,
  • Renata Rehak,
  • Lawrence Lou,
  • Christian Turbide,
  • Jeremie Auger,
  • Annie Tremblay,
  • Olivier Mathieu,
  • Sylvie Binda,
  • Sylvie Binda,
  • Thomas A. Tompkins,
  • Sabina Bruehlmann,
  • Christopher N. Andrews

DOI
https://doi.org/10.3389/frmbi.2024.1321624
Journal volume & issue
Vol. 3

Abstract

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IntroductionFew minimally invasive options for sampling the small intestinal (SI) luminal fluid exist to study the SI microbiota in health and disease. To address the lack of tools and methods to study GI regions that are difficult to access, Nimble Science developed a fully autonomous and passive sampling method, the Small Intestine MicroBiome Aspiration (SIMBA™) capsule, for convenient, high-quality, and reliable sampling to study the diet-microbiota interactions in the SI. MethodsThe sealing efficacy and microbial DNA preservation capacity of the SIMBA capsules was first validated through in vitro simulation assays. Then, a clinical study was conducted with 20 healthy participants to validate the in vivo use of SIMBA capsules to reliably capture samples for SI microbiome analysis before and after an intervention (NCT04489329). Briefly, participants ingested the capsules at baseline and 7 days later, with a probiotic capsule containing a blend of L. rhamnosus R0011 and B. longum R0175. Following baseline SIMBA capsule ingestion, multiple low-dosage x-ray scans were performed to track the sampling location. Fecal samples corresponding with the baseline and intervention capsule were analyzed for comparison. ResultsThe SIMBA capsules’ performance in vitro demonstrated the potential for contamination-free sampling with preservation of the microbial communities. Within the clinical study, the capsules performed safely and reliably for collection of SI content. X-ray tracking confirmed that 97.2% of the capsules completed sample collection in the SI regions before reaching the colon. Importantly, our data showed that the capsules sampled in the right area of the intestines and that baseline SIMBA microbiome profile is significantly different from fecal microbiome profile. SIMBA successfully detected a concurrent probiotic intervention in the small intestine, which was not detectable using stool samples. DiscussionsThe high accuracy of sampling location and sealing efficacy of the SIMBA capsules makes them potentially useful research tools in clinical trials for studying diet-microbiota interactions in health and disease, and perhaps eventually for the clinical diagnosis of GI tract conditions affecting the SI such as SIBO.

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