The composition of gut microbiota and its relationship to human health, particularly its links with obesity remain an ongoing challenge for scientists. The current gold standard for exploring human gut microbiota consists of using stool samples and only applying next generations sequencing techniques, which sometimes generate contradictory results. Here, we comprehensively describe nutrient absorption, fat digestion, carbohydrate and protein absorption, demonstrating that absorption of these diverse nutrients occurs mainly in the stomach and small intestine. Indeed, bariatric surgery, including Roux-en-Y, removes part of the upper intestine, resulting in weight loss, while colonic surgery is associated with a stable weight. However, most studies only use stool samples rather than small intestine samples because of the easy with which this can be accessed. Metagenomics studies are associated with several biases such as extraction and primer biases and depth bias, including the more modern platforms. High-throughput culture-dependent techniques, such as culturomics, which uses rapid identification methods such as MALDI-TOF, remain time-consuming, but have demonstrated their complementarity with molecular techniques. In conclusion, we believe that a comprehensive analysis of the relationships between obesity and gut microbiota requires large-scale studies coupling metagenomics and culture-dependent research, in order to analyse both small intestine and stool samples.
Keywords: Culturomics; Gut microbiota; Metagenomics; Small intestine samples; Stool samples.
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