Objective To investigate the effect of active muscle response on mechanical responses and injuries of human neck under high Gx loading.Methods A refined finite element model of the head and neck with active muscle response was established and validated based on the existing post-crash volunteer experiments.The effects of active muscle action on the kinematic and biomechanical responses of the neck were investigated under different G-value loads and at each tilting angle using this model.Results The stress distribution of vertebrae under high Gx load was dispersed from C4-7 to the whole vertebrae,and the active muscle action reduced the stress change,and the effect was significant under 8 G acceleration,which reduced the peak vertebral bone stress by 23.6％and 11.6％,and the peak intervertebral disc stress by 42.3％and 63.4％under 8 G and 10 G conditions,respectively.The maximum stress difference of 34.3 MPa was achieved by the active muscle action at 15° backward tilting.Conclusions The neck showed better stability by the active muscle action under the impact of high Gx loading.At different tilting angles,the active muscle action was more obvious in the backward tilting posture compared with the forward tilting and upright seated postures,and the backward tilting posture was safer to meet the impact when the same active muscle action was applied.The results can provide a reference for the subsequent studies related to the neck injury.

Traumatic brain injury caused by blast shock waves represents a significant type of injury in modern warfare and civilian explosion accidents.Its high incidence and complexity have attracted a widespread attention,and the injury mechanism and cranial brain protection have become current research hotspots.This review first analyzes the dynamic load characteristics of blast shock waves and introduces the development and verification of cranial brain constitutive and finite element models to explore the mechanical responses of the cranial brain at tissue and cellular levels under blast waves and bullet impacts.Subsequently,the current state of research on injury mechanisms at tissue and cellular levels and cranial brain protection,is systematically summarized based on domestic and international studies.Finally,the current research challenges and future development directions are outlined,and the importance of interdisciplinary cooperation and innovation to promote the research and application transformation of blast-induced traumatic brain injury is emphasized.The findings provide a valuable reference for enhancing the comprehension of injury mechanism and fostering multi-disciplinary integration and protective helmet development.

Objective:To investigate the awareness of Chinese gastroenterologists regarding the treatment targets of inflammatory bowel disease (IBD) as defined by the STRIDE-Ⅱ consensus and to identify challenges encountered in clinical practice.Methods:A nationwide cross-sectional survey was conducted via an online questionnaire distributed to gastroenterologists between February 16 and March 31, 2024. The survey encompassed demographic data, recognition and adherence to the STRIDE-Ⅱ consensus, perceived importance of IBD treatment targets, and clinical challenges.Results:A total of 203 valid questionnaires were collected from 28 provinces (autonomous regions/municipalities). The majority of participants (177/203, 87.2%) reported routinely referencing the STRIDE-Ⅱ consensus in IBD management. Over 90% of physicians identified endoscopic mucosal healing as the core treatment target. Additionally, approximately 80% emphasized the importance of clinical remission, endoscopic remission, quality-of-life improvement, disability prevention, and normalization of growth in pediatric patients. The challenges reported by more than half of physicians in acheiving the goals of the treatment process included lack of a standardized definition for mucosal healing (69.5%), management of psychological comorbidities (89.2%), drug failure (74.4%), penetrating Crohn's disease (72.4%), perianal fistulizing Crohn's disease (65.0%), and IBD management during pregnancy (61.1%).Conclusions:Chinese gastroenterologists demonstrate high awareness and adherence to the STRIDE-Ⅱ consensus, prioritizing mucosal healing as the cornerstone of IBD management. However, numerous challenges remain in clinical practice, particularly regarding operational definitions of therapeutic endpoints and complex disease phenotypes.

Traumatic brain injury caused by blast shock waves represents a significant type of injury in modern warfare and civilian explosion accidents.Its high incidence and complexity have attracted a widespread attention,and the injury mechanism and cranial brain protection have become current research hotspots.This review first analyzes the dynamic load characteristics of blast shock waves and introduces the development and verification of cranial brain constitutive and finite element models to explore the mechanical responses of the cranial brain at tissue and cellular levels under blast waves and bullet impacts.Subsequently,the current state of research on injury mechanisms at tissue and cellular levels and cranial brain protection,is systematically summarized based on domestic and international studies.Finally,the current research challenges and future development directions are outlined,and the importance of interdisciplinary cooperation and innovation to promote the research and application transformation of blast-induced traumatic brain injury is emphasized.The findings provide a valuable reference for enhancing the comprehension of injury mechanism and fostering multi-disciplinary integration and protective helmet development.

This article discusses the important role and practical experience of Guangxi Zhuang Autonomous Region as a bridgehead between China and the Association of Southeast Asian Nations (ASEAN) in the joint prevention and control of cross-border infectious diseases between China and Vietnam. The cross-border transmission of infectious diseases has been effectively managed in Guangxi Zhuang Autonomous Region through a package of strategies, including government leadership, construction of the joint prevention and control mechanism, establishment of dialogue platforms, collaboration of scientific researches, and personnel exchange and training; however, there are still challenges. Further deepening of collaboration is required to meet future needs for infectious disease prevention and control.

Objective:To investigate the awareness of Chinese gastroenterologists regarding the treatment targets of inflammatory bowel disease (IBD) as defined by the STRIDE-Ⅱ consensus and to identify challenges encountered in clinical practice.Methods:A nationwide cross-sectional survey was conducted via an online questionnaire distributed to gastroenterologists between February 16 and March 31, 2024. The survey encompassed demographic data, recognition and adherence to the STRIDE-Ⅱ consensus, perceived importance of IBD treatment targets, and clinical challenges.Results:A total of 203 valid questionnaires were collected from 28 provinces (autonomous regions/municipalities). The majority of participants (177/203, 87.2%) reported routinely referencing the STRIDE-Ⅱ consensus in IBD management. Over 90% of physicians identified endoscopic mucosal healing as the core treatment target. Additionally, approximately 80% emphasized the importance of clinical remission, endoscopic remission, quality-of-life improvement, disability prevention, and normalization of growth in pediatric patients. The challenges reported by more than half of physicians in acheiving the goals of the treatment process included lack of a standardized definition for mucosal healing (69.5%), management of psychological comorbidities (89.2%), drug failure (74.4%), penetrating Crohn's disease (72.4%), perianal fistulizing Crohn's disease (65.0%), and IBD management during pregnancy (61.1%).Conclusions:Chinese gastroenterologists demonstrate high awareness and adherence to the STRIDE-Ⅱ consensus, prioritizing mucosal healing as the cornerstone of IBD management. However, numerous challenges remain in clinical practice, particularly regarding operational definitions of therapeutic endpoints and complex disease phenotypes.

Objective To investigate the effect of active muscle response on mechanical responses and injuries of human neck under high Gx loading.Methods A refined finite element model of the head and neck with active muscle response was established and validated based on the existing post-crash volunteer experiments.The effects of active muscle action on the kinematic and biomechanical responses of the neck were investigated under different G-value loads and at each tilting angle using this model.Results The stress distribution of vertebrae under high Gx load was dispersed from C4-7 to the whole vertebrae,and the active muscle action reduced the stress change,and the effect was significant under 8 G acceleration,which reduced the peak vertebral bone stress by 23.6％and 11.6％,and the peak intervertebral disc stress by 42.3％and 63.4％under 8 G and 10 G conditions,respectively.The maximum stress difference of 34.3 MPa was achieved by the active muscle action at 15° backward tilting.Conclusions The neck showed better stability by the active muscle action under the impact of high Gx loading.At different tilting angles,the active muscle action was more obvious in the backward tilting posture compared with the forward tilting and upright seated postures,and the backward tilting posture was safer to meet the impact when the same active muscle action was applied.The results can provide a reference for the subsequent studies related to the neck injury.

Humans ; Urinary Bladder Neoplasms/pathology* ; Carcinoma, Transitional Cell/pathology* ; Genetic Markers ; Biomarkers, Tumor/genetics* ; Urothelium/pathology*

BACKGROUND:Osteoporosis is often accompanied by sarcopenia and an increased risk of fractures from falls.Recent studies have indicated a close relationship between lipid metabolism and sarcopenia.Abnormal lipid metabolism may directly impact muscle physiological function and metabolism. OBJECTIVE:To investigate the relationship between lipid metabolism and sarcopenia and evaluate their causal relationship using Mendelian randomization. METHODS:Mendelian randomization was used to explore the causal relationship between low-density lipoprotein cholesterol,high-density lipoprotein cholesterol,triglycerides,and muscle mass.Research data from genome-wide association studies were used and a sensitivity analysis was conducted to verify the reliability of the results.Approximate indicators of muscle mass,including trunk lean mass and appendicular lean mass,were used as outcome measures. RESULTS AND CONCLUSION:The study found a negative correlation of low-density lipoprotein cholesterol and triglycerides with muscle mass,while no correlation was observed between high-density lipoprotein cholesterol and muscle mass.The results of the sensitivity analysis indicated a robust causal relationship.Using Mendelian randomization,this study provides evidence of a causal relationship between low-density lipoprotein cholesterol and triglycerides and muscle mass.This finding deepens our understanding of the effects of lipids on sarcopenia and has important clinical implications for the prevention and treatment of sarcopenia and osteoporosis.

Objective To study the compressive mechanical properties and constitutive models of brain tissue at different strain rates.Methods Quasi-static and medium-velocity compression tests were carried out on the white and gray matter of pig brain tissue using an electronic universal testing machine,and stress-strain curves of pig brain tissue at different strain rates were obtained.The Ogden constitutive model was used to fit the test curve,the parameters of the constitutive model were determined,and the simulation was verified using finite element software.Results The brain tissue stress-strain curves showed nonlinear characteristics,with a strong strain rate correlation and sensitivity.When tissues were compressed to 0.6 strain,the stress of white and gray matter increased by 102%and 129%,respectively,at a strain rate of 5×10-4-5×10-2 s-1,and by 50.7%and 54.6%,respectively,at a strain rate of 1-1.5 s-1.At a strain rate of 1.5 s-1,the stress in the white and gray matter increased by 347%and 413%,respectively,compared with that at 5×10-4 s-1 strain rate.The R2 value of the Ogden model was greater than 0.99,and the error between the simulation and experimental results was within 15%,thereby verifying the validity of the model.Conclusions This study is helpful for the prediction of brain tissue deformation and provides an accurate scientific theoretical basis for the establishment of scientific and reasonable human simulation targets as well as the design and improvement of brain-protective equipment.