Comparison Log 2026-04-12 07:58:27.929605 mwtab Python Library Version: 2.0.0 Source: https://www.metabolomicsworkbench.org/rest/study/analysis_id/AN006026/mwtab/... Study ID: ST003669 Analysis ID: AN006026 Status: Inconsistent Sections "STUDY" contain missmatched items: {'STUDY_SUMMARY': ["Sepsis\xa0is a potentially life-threatening condition that arises when the body's response to infection causes injury to its tissues and organs. We investigate the role of the human gut microbiome in\xa0clinical sepsis through metabolites and immune response. Semi-polar metabolites data of part samples (RQ00663) of the project were collected from human blood using untargeted MS methods at different times including Day1, Day7 and Day14. The results showed that lipids are heavily affected by sepsis over time. Gut microbiota like Bacteroides species may correlate with bile acid metabolism. Differential metabolites are important in sepsis severity progress correlated with gut microbiota.", "Sepsis\xa0is a potentially life-threatening condition that arises when the body''s response to infection causes injury to its tissues and organs. We investigate the role of the human gut microbiome in\xa0clinical sepsis through metabolites and immune response. Semi-polar metabolites data of part samples (RQ00663) of the project were collected from human blood using untargeted MS methods at different times including Day1, Day7 and Day14. The results showed that lipids are heavily affected by sepsis over time. Gut microbiota like Bacteroides species may correlate with bile acid metabolism. Differential metabolites are important in sepsis severity progress correlated with gut microbiota."]} Sections "PROJECT" contain missmatched items: {'PROJECT_SUMMARY': ["Sepsis, defined as life-threatening organ dysfunction caused by a dysregulated host response to infection, remains a significant clinical challenge. A common treatment involves the administration of antibiotics, which can be life-saving but are often ineffective or even detrimental in certain cases. These outcomes underscore the need for a deeper understanding of how the gut microbiome influences the host response to infection. We hypothesize that the gut microbiome plays a critical role in shaping and priming the host's metabolism and immune response to infection. Our goal is to study novel microbiome-based therapeutic approaches by elucidating the complex dynamics between gut microbiota, host metabolism, and immune responses during sepsis. Preliminary findings suggest specific microbial taxa play critical roles in modulating key metabolic and immune pathways. For example, Bacteroides species may affect sepsis potentially through metabolite pathways. Together, these insights point to the gut microbiome as a crucial modulator of sepsis outcomes and highlight the potential for targeted microbiome-metabolite therapies to improve clinical outcomes in sepsis.", "Sepsis, defined as life-threatening organ dysfunction caused by a dysregulated host response to infection, remains a significant clinical challenge. A common treatment involves the administration of antibiotics, which can be life-saving but are often ineffective or even detrimental in certain cases. These outcomes underscore the need for a deeper understanding of how the gut microbiome influences the host response to infection. We hypothesize that the gut microbiome plays a critical role in shaping and priming the host''s metabolism and immune response to infection. Our goal is to study novel microbiome-based therapeutic approaches by elucidating the complex dynamics between gut microbiota, host metabolism, and immune responses during sepsis. Preliminary findings suggest specific microbial taxa play critical roles in modulating key metabolic and immune pathways. For example, Bacteroides species may affect sepsis potentially through metabolite pathways. Together, these insights point to the gut microbiome as a crucial modulator of sepsis outcomes and highlight the potential for targeted microbiome-metabolite therapies to improve clinical outcomes in sepsis."]}