Case history investigations have shown that pile foundations are more critically damaged in liquefiable soils than non-liquefiable soils.This study examines the differences in seismic response of pile foundations in l...Case history investigations have shown that pile foundations are more critically damaged in liquefiable soils than non-liquefiable soils.This study examines the differences in seismic response of pile foundations in liquefiable and non-liquefiable soils and their sensitivity to numerical model parameters.A two-dimensional finite element(FE)model is developed to simulate the experiment of a single pile foundation centrifuge in liquefiable soil subjected to earthquake motions and is validated against real-world test results.The differences in soil-pile seismic response of liquefiable and non-liquefiable soils are explored.Specifically,the first-order second-moment method(FOSM)is used for sensitivity analysis of the seismic response.The results show significant differences in seismic response for a soil-pile system between liquefiable and non-liquefiable soil.The seismic responses are found to be significantly larger in liquefiable soil than in non-liquefiable soil.Moreover,the pile bending moment was mainly affected by the kinematic effect in liquefiable soil,while the inertial effect was more significant in non-liquefiable soil.The controlling parameters of seismic response were PGA,soil density,and friction angle in liquefiable soil,while the pile bending moment was mainly controlled by PGA,the friction angle of soil,and shear modulus of loose sand in non-liquefiable soil.展开更多
BACKGROUND Non-liquefied multiple liver abscesses(NMLA)can induce sepsis,septic shock,sepsis-associated kidney injury(SA-AKI),and multiple organ failure.The inability to perform ultrasound-guided puncture and drainage...BACKGROUND Non-liquefied multiple liver abscesses(NMLA)can induce sepsis,septic shock,sepsis-associated kidney injury(SA-AKI),and multiple organ failure.The inability to perform ultrasound-guided puncture and drainage to eradicate the primary disease may allow for the persistence of bacterial endotoxins and endogenous cytokines,exacerbating organ damage,and potentially causing immunosuppression and T-cell exhaustion.Therefore,the search for additional effective treatments that complement antibiotic therapy is of great importance.CASE SUMMARY A 45-year-old critically ill female patient presented to our hospital’s intensive care unit with intermittent vomiting,diarrhea,and decreased urine output.The patient exhibited a temperature of 37.8℃.Based on the results of liver ultrasonography,laboratory tests,fever,and oliguria,the patient was diagnosed with NMLA,sepsis,SA-AKI,and immunosuppression.We administered antibiotic therapy,entire care,continuous renal replacement therapy(CRRT)with an M100 hemofilter,and hemoperfusion(HP)with an HA380 hemofilter.The aforementioned treatment resulted in a substantial reduction in disease severity scores and a decrease in the extent of infection and inflammatory factors.In addition,the treatment stimulated the expansion of the cluster of differentiation 8^(+)(CD8^(+))Tcells and led to the complete recovery of renal function.The patient was discharged from the hospital.During the follow-up period of 28 d,she recovered successfully.CONCLUSION Based on the entire therapeutic regimen,the early combination of CRRT and HP therapy may control sepsis caused by NMLA and help control infections,reduce inflammatory responses,and improve CD8^(+)T-cell immune function.展开更多
基金National Science Foundation for Excellent Young Scholars of China under Grant No.51722801National Natural Science Foundation of China under Grant Nos.51808006 and 52078016。
文摘Case history investigations have shown that pile foundations are more critically damaged in liquefiable soils than non-liquefiable soils.This study examines the differences in seismic response of pile foundations in liquefiable and non-liquefiable soils and their sensitivity to numerical model parameters.A two-dimensional finite element(FE)model is developed to simulate the experiment of a single pile foundation centrifuge in liquefiable soil subjected to earthquake motions and is validated against real-world test results.The differences in soil-pile seismic response of liquefiable and non-liquefiable soils are explored.Specifically,the first-order second-moment method(FOSM)is used for sensitivity analysis of the seismic response.The results show significant differences in seismic response for a soil-pile system between liquefiable and non-liquefiable soil.The seismic responses are found to be significantly larger in liquefiable soil than in non-liquefiable soil.Moreover,the pile bending moment was mainly affected by the kinematic effect in liquefiable soil,while the inertial effect was more significant in non-liquefiable soil.The controlling parameters of seismic response were PGA,soil density,and friction angle in liquefiable soil,while the pile bending moment was mainly controlled by PGA,the friction angle of soil,and shear modulus of loose sand in non-liquefiable soil.
文摘BACKGROUND Non-liquefied multiple liver abscesses(NMLA)can induce sepsis,septic shock,sepsis-associated kidney injury(SA-AKI),and multiple organ failure.The inability to perform ultrasound-guided puncture and drainage to eradicate the primary disease may allow for the persistence of bacterial endotoxins and endogenous cytokines,exacerbating organ damage,and potentially causing immunosuppression and T-cell exhaustion.Therefore,the search for additional effective treatments that complement antibiotic therapy is of great importance.CASE SUMMARY A 45-year-old critically ill female patient presented to our hospital’s intensive care unit with intermittent vomiting,diarrhea,and decreased urine output.The patient exhibited a temperature of 37.8℃.Based on the results of liver ultrasonography,laboratory tests,fever,and oliguria,the patient was diagnosed with NMLA,sepsis,SA-AKI,and immunosuppression.We administered antibiotic therapy,entire care,continuous renal replacement therapy(CRRT)with an M100 hemofilter,and hemoperfusion(HP)with an HA380 hemofilter.The aforementioned treatment resulted in a substantial reduction in disease severity scores and a decrease in the extent of infection and inflammatory factors.In addition,the treatment stimulated the expansion of the cluster of differentiation 8^(+)(CD8^(+))Tcells and led to the complete recovery of renal function.The patient was discharged from the hospital.During the follow-up period of 28 d,she recovered successfully.CONCLUSION Based on the entire therapeutic regimen,the early combination of CRRT and HP therapy may control sepsis caused by NMLA and help control infections,reduce inflammatory responses,and improve CD8^(+)T-cell immune function.