The intestinal tract,a complex organ responsible for nutrient absorption and digestion,relies heavily on a balanced gut microbiome to maintain its integrity.Disruptions to this delicate microbial ecosystem can lead to...The intestinal tract,a complex organ responsible for nutrient absorption and digestion,relies heavily on a balanced gut microbiome to maintain its integrity.Disruptions to this delicate microbial ecosystem can lead to intestinal inflammation,a hallmark of inflammatory bowel disease(IBD).While the role of the gut microbiome in IBD is increasingly recognized,the underlying mechanisms,particularly those involving endoplasmic reticulum(ER)stress,autophagy,and cell death,remain incompletely understood.ER stress,a cellular response to various stressors,can trigger inflammation and cell death.Autophagy,a cellular degradation process,can either alleviate or exacerbate ER stress-induced inflammation,depending on the specific context.The gut microbiome can influence both ER stress and autophagy pathways,further complicating the interplay between these processes.This review delves into the intricate relationship between ER stress,autophagy,and the gut microbiome in the context of intestinal inflammation.By exploring the molecular mechanisms underlying these interactions,we aim to provide a comprehensive theoretical framework for developing novel therapeutic strategies for IBD.A deeper understanding of the ER stress-autophagy axis,the gut microbial-ER stress axis,and the gut microbial-autophagy axis may pave the way for targeted interventions to restore intestinal health and mitigate the impact of IBD.展开更多
Uncertainties are unavoidable in practical engineering,and phononic crystals are no exception.In this paper,the uncertainties are treated as the interval parameters,and an interval phononic crystal beam model is estab...Uncertainties are unavoidable in practical engineering,and phononic crystals are no exception.In this paper,the uncertainties are treated as the interval parameters,and an interval phononic crystal beam model is established.A perturbation-based interval finite element method(P-IFEM)and an affine-based interval finite element method(A-IFEM)are proposed to study the dynamic response of this interval phononic crystal beam,based on which an interval vibration transmission analysis can be easily implemented and the safe bandgap can be defined.Finally,two numerical examples are investigated to demonstrate the effectiveness and accuracy of the P-IFEM and A-IFEM.Results show that the safe bandgap range may even decrease by 10%compared with the deterministic bandgap without considering the uncertainties.展开更多
基金supported by the fund for the Project of the National Key Research and Development Program of China(2024YFD1300203)Project support was provided by the Fund opened from Key Laboratory of Fujian Universities Preventive Veterinary Medicine and Biotechnology,Longyan University(grant No.2021KF01)the Cyanine Project of Yangzhou University(2020)。
文摘The intestinal tract,a complex organ responsible for nutrient absorption and digestion,relies heavily on a balanced gut microbiome to maintain its integrity.Disruptions to this delicate microbial ecosystem can lead to intestinal inflammation,a hallmark of inflammatory bowel disease(IBD).While the role of the gut microbiome in IBD is increasingly recognized,the underlying mechanisms,particularly those involving endoplasmic reticulum(ER)stress,autophagy,and cell death,remain incompletely understood.ER stress,a cellular response to various stressors,can trigger inflammation and cell death.Autophagy,a cellular degradation process,can either alleviate or exacerbate ER stress-induced inflammation,depending on the specific context.The gut microbiome can influence both ER stress and autophagy pathways,further complicating the interplay between these processes.This review delves into the intricate relationship between ER stress,autophagy,and the gut microbiome in the context of intestinal inflammation.By exploring the molecular mechanisms underlying these interactions,we aim to provide a comprehensive theoretical framework for developing novel therapeutic strategies for IBD.A deeper understanding of the ER stress-autophagy axis,the gut microbial-ER stress axis,and the gut microbial-autophagy axis may pave the way for targeted interventions to restore intestinal health and mitigate the impact of IBD.
基金the National Natural Science Foundation of China(Nos.12272172 and 11847009)the Natural Science Foundation of Jiangsu Higher Education Institutions of China(No.22KJB580005)+1 种基金the Youth Talent Promotion Project from China Association for Science and Technology(No.2022QNRC001)the Priority Academic Program Development of Jiangsu Higher Education Institutions of China。
文摘Uncertainties are unavoidable in practical engineering,and phononic crystals are no exception.In this paper,the uncertainties are treated as the interval parameters,and an interval phononic crystal beam model is established.A perturbation-based interval finite element method(P-IFEM)and an affine-based interval finite element method(A-IFEM)are proposed to study the dynamic response of this interval phononic crystal beam,based on which an interval vibration transmission analysis can be easily implemented and the safe bandgap can be defined.Finally,two numerical examples are investigated to demonstrate the effectiveness and accuracy of the P-IFEM and A-IFEM.Results show that the safe bandgap range may even decrease by 10%compared with the deterministic bandgap without considering the uncertainties.
