Personalized microbiome-driven effects of non-nutritive sweeteners on human glucose tolerance.

Non-nutritive sweeteners (NNS) are commonly integrated into human diet and presumed to be inert; however, animal studies suggest that they may impact the microbiome and downstream glycemic responses. We causally assessed NNS impacts in humans and their microbiomes in a randomized-controlled trial encompassing 120 healthy adults, administered saccharin, sucralose, aspartame, and stevia sachets for 2 weeks in doses lower than the acceptable daily intake, compared with controls receiving sachet-contained vehicle glucose or no supplement. As groups, each administered NNS distinctly altered stool and oral microbiome and plasma metabolome, whereas saccharin and sucralose significantly impaired glycemic responses. Importantly, gnotobiotic mice conventionalized with microbiomes from multiple top and bottom responders of each of the four NNS-supplemented groups featured glycemic responses largely reflecting those noted in respective human donors, which were preempted by distinct microbial signals, as exemplified by sucralose. Collectively, human NNS consumption may induce person-specific, microbiome-dependent glycemic alterations, necessitating future assessment of clinical implications.

Metamizol Relieves Pain Without Interfering With Cerulein-Induced Acute Pancreatitis in Mice.

OBJECTIVES: Animal models are essential to understand the pathogenesis of acute pancreatitis (AP) and to develop new therapeutic strategies. Although it has been shown that cerulein-induced AP is associated with pain in experimental animals, most experiments are carried out without any pain-relieving treatment because researchers are apprehensive of an interference of the analgetic agent with AP-associated inflammation. In light of the growing ethical concerns and the legal tightening regarding animal welfare during experiments, this attitude should be changed. METHODS: Acute pancreatitis was induced by cerulein in the C57BL/6J and FVB/N mouse inbred strains. One group received vehicle only, and the other was treated with metamizol as analgetic agent. Pain sensation and parameters of AP were analyzed as well as the effect of metamizol in the pancreas and its actions in the brain. RESULTS: We report that oral administration of metamizol protects cerulein-treated mice from abdominal pain without influencing the clinical and histopathological course of the disease. In addition, it could be shown that metamizol reduces the central pain response. CONCLUSIONS: This study reveals that oral administered metamizol has no influence on the cerulein-induced AP and can be given as an analgesic to increase animal welfare in experiments with induced AP.