BACKGROUND:Degenerative diseases caused by bone and muscle degeneration are major reasons for the decline in physical function and mobility,increased fragility fractures,and high mortality rates in the elderly,significantly affecting their health and quality of life.OBJECTIVE:To review the research progress in the mechanisms of muscle-bone interaction and the etiology,prevention,and treatment of related diseases.METHODS:CNKI,WanFang and PubMed databases were searched for relevant literature published from 2014 to 2024.The search terms were"muscle-bone crosstalk,musculoskeletal system,inter-tissue communication,myokines,osteokines,osteosarcopenia,sarcopenia,osteoporosis,bone regeneration,fibro-adipogenic progenitors"in Chinese and English.By reading the articles,we eliminated irrelevant,outdated,and poorly focused literature,and finally 94 articles were included for review.RESULTS AND CONCLUSION:Mechanical interaction,secretion factor interaction,and stem cell interaction between muscle and bone are crucial for the metabolism and regeneration regulation of the musculoskeletal system.Systemic interventions targeting biochemical signals of muscle factors(such as myostatin and irisin)and bone factors(such as nuclear factor-κB receptor-activating factor ligand and sclerostin)can improve the quality and function of skeletal muscle and bone,and have positive effects on fracture healing.In recent years,it has been found that related stem cells in the musculoskeletal system can interact,with the activation of muscle progenitor cells(such as fibro-adipogenic progenitors)having a significant impact on bone growth,repair,and regeneration.Research on the mechanisms of muscle-bone interaction can provide insights into the etiology,prevention,and treatment of related diseases.However,there are currently no effective clinical treatments for muscle-bone comorbidities,with most research still at the cellular and animal experiment stage.Therefore,extensive research is needed in the future to gradually move from experiments to clinical applications,developing more targeted therapies and drugs to better serve clinical needs.

BACKGROUND:At present,there is a main kind of operation,which is represented by the proximal femoral nail antirotation,to treat femoral intertrochanteric fractures,but some sequelae still occur such as internal fixation loosening,failure,and nail withdrawal.We designed a new femoral neck spiral blade system to solve this problem,so we analyze the mechanical structure by the finite element method that can be regard as the theoretical basis for the system.OBJECTIVE:To compare the mechanical properties of the new femoral neck spiral blade system and the proximal femoral nail antirotation in the treatment of femoral intertrochanteric fracture by the finite element method.METHODS:Based on the finite element model of the femur,the A1.2 and A2.2 femoral intertrochanteric fracture models were established according to the AO fracture classification principle of 2018 edition.The models were fixed with the proximal femoral nail antirotation and the new internal fixation system,applying an axial load of 700,1 400,and 2 100 N above the femoral head.The mechanical characteristics of the two internal fixation methods were respectively compared and analyzed by observing the maximum equivalent stress and the maximum deformation of each group.RESULTS AND CONCLUSION:(1)The maximum equivalent stress of the new internal fixation group under different compressive loads was smaller than that of the proximal femoral nail antirotation group.(2)In the A1.2 fracture model,under different compression loads,the deformation of the new internal fixation system was smaller than that of the proximal femoral nail antirotation group,and the average value of difference between the two was 1.113 mm;the result of the A2.2 type fracture model was the same as that in the A1.1 with an average value of difference of 2.017 mm between the two.(3)In the A1.2 fracture model,under different compressive loads,the maximum deformation of the spiral blade fixed by the new internal fixation system was smaller than that of the proximal femoral nail antirotation group,and the average value of difference between the two was 1.062 mm;the result of the A2.2 type fracture model was the same as that in the A1.1 with an average value of difference of 1.891 mm between the two.(4)The results indicate that the new femoral neck spiral blade system has a lower internal fixation stress value compared to the proximal femoral nail antirotation,and a smaller displacement value of the femur after fixation and internal fixation.It can more effectively fix fractures and prevent the spiral blade from retracting or cutting out in the femoral neck.

BACKGROUND:Degenerative diseases caused by bone and muscle degeneration are major reasons for the decline in physical function and mobility,increased fragility fractures,and high mortality rates in the elderly,significantly affecting their health and quality of life.OBJECTIVE:To review the research progress in the mechanisms of muscle-bone interaction and the etiology,prevention,and treatment of related diseases.METHODS:CNKI,WanFang and PubMed databases were searched for relevant literature published from 2014 to 2024.The search terms were"muscle-bone crosstalk,musculoskeletal system,inter-tissue communication,myokines,osteokines,osteosarcopenia,sarcopenia,osteoporosis,bone regeneration,fibro-adipogenic progenitors"in Chinese and English.By reading the articles,we eliminated irrelevant,outdated,and poorly focused literature,and finally 94 articles were included for review.RESULTS AND CONCLUSION:Mechanical interaction,secretion factor interaction,and stem cell interaction between muscle and bone are crucial for the metabolism and regeneration regulation of the musculoskeletal system.Systemic interventions targeting biochemical signals of muscle factors(such as myostatin and irisin)and bone factors(such as nuclear factor-κB receptor-activating factor ligand and sclerostin)can improve the quality and function of skeletal muscle and bone,and have positive effects on fracture healing.In recent years,it has been found that related stem cells in the musculoskeletal system can interact,with the activation of muscle progenitor cells(such as fibro-adipogenic progenitors)having a significant impact on bone growth,repair,and regeneration.Research on the mechanisms of muscle-bone interaction can provide insights into the etiology,prevention,and treatment of related diseases.However,there are currently no effective clinical treatments for muscle-bone comorbidities,with most research still at the cellular and animal experiment stage.Therefore,extensive research is needed in the future to gradually move from experiments to clinical applications,developing more targeted therapies and drugs to better serve clinical needs.

BACKGROUND:At present,there is a main kind of operation,which is represented by the proximal femoral nail antirotation,to treat femoral intertrochanteric fractures,but some sequelae still occur such as internal fixation loosening,failure,and nail withdrawal.We designed a new femoral neck spiral blade system to solve this problem,so we analyze the mechanical structure by the finite element method that can be regard as the theoretical basis for the system.OBJECTIVE:To compare the mechanical properties of the new femoral neck spiral blade system and the proximal femoral nail antirotation in the treatment of femoral intertrochanteric fracture by the finite element method.METHODS:Based on the finite element model of the femur,the A1.2 and A2.2 femoral intertrochanteric fracture models were established according to the AO fracture classification principle of 2018 edition.The models were fixed with the proximal femoral nail antirotation and the new internal fixation system,applying an axial load of 700,1 400,and 2 100 N above the femoral head.The mechanical characteristics of the two internal fixation methods were respectively compared and analyzed by observing the maximum equivalent stress and the maximum deformation of each group.RESULTS AND CONCLUSION:(1)The maximum equivalent stress of the new internal fixation group under different compressive loads was smaller than that of the proximal femoral nail antirotation group.(2)In the A1.2 fracture model,under different compression loads,the deformation of the new internal fixation system was smaller than that of the proximal femoral nail antirotation group,and the average value of difference between the two was 1.113 mm;the result of the A2.2 type fracture model was the same as that in the A1.1 with an average value of difference of 2.017 mm between the two.(3)In the A1.2 fracture model,under different compressive loads,the maximum deformation of the spiral blade fixed by the new internal fixation system was smaller than that of the proximal femoral nail antirotation group,and the average value of difference between the two was 1.062 mm;the result of the A2.2 type fracture model was the same as that in the A1.1 with an average value of difference of 1.891 mm between the two.(4)The results indicate that the new femoral neck spiral blade system has a lower internal fixation stress value compared to the proximal femoral nail antirotation,and a smaller displacement value of the femur after fixation and internal fixation.It can more effectively fix fractures and prevent the spiral blade from retracting or cutting out in the femoral neck.

Objective:To analyze the role of patient support system in multidrug-resistant/rifampicin-resistant tuberculosis (MDR/RR-TB) treatment adherence and outcome, and provide evidence for deepening the patient-centered support system.Methods:Based on the stakeholder analysis, definite stakeholders (administrators from the Department of Medical Insurance, and those from the provincial CDC), expectant stakeholders (administrators from regional CDC, health workers from primary CDCs, medical workers from designated MDR/RR-TB hospitals and MDR/RR-TB patients), and latent stakeholders (MDR/RR-TB patient families and their neighbors or colleagues) were selected using a purposive sampling. These stakeholders were subject to a semi-structured interview on patient support. The inclusion of participants ceased after reaching code or thematic saturation and meaning saturation, while thematic framework analysis was applied in interview data.Results:The 25 interviewees included could be categorized into three groups of stakeholders, i. e., 4 definite stakeholders, 19 expectant stakeholders and 2 latent stakeholders. Three themes summarized in this regard were definite stakeholders providing policy support to advance these patients′ access to standardized diagnosis and treatment services; diagnosis and treatment and management support of expectant stakeholders of these patients to encourage their compliance to treatment and enable their access to high quality medical care; and support from latent stakeholders as a critical guarantee for the patients to welcome a desirable treatment outcome. Psychological support provided under MDR/RR-TB basic care program in some provinces contributed positively to raising patients′ compliance. Economic support, treatment support from family menmbers ccould help the patients to welcome desirable outcomes.Conclusions:MDR/RR-TB patient-centered support system operating in the Yangtze River delta provide the patients with MDR/RR-TB diagnostic and treatment services of some accessibility. Given the progress, there are still shortcomings for the respective stakeholders to enhance their attention and collaboration to improve the access and equity to medical service.

Ferroptosis is a type of cell death accompanied by iron-dependent lipid peroxidation, thus stimulating ferroptosis may be a potential strategy for treating gastric cancer, therapeutic agents against which are urgently required. Jiyuan oridonin A (JDA) is a natural compound isolated from Jiyuan

Objective To investigate the effect of acute high altitude exposure on lung functions and the relationship between lung functions and acute mountain sickness ( AMS) .Method We collected the lung function and Lewis Lake data of 73 subjects (aged 18 to 26,male) at 400 m above sea-leve and those at high altitude(exposure to 3900 m, 5 d).Results Compared with sea-level, lung functions decreased in forced vital capucity (FVC), maximum midexpiratory flow(MMF), V50, V25 while forced expiratory volume in 1 second(FEV1), peak expiratory flow(PEF), V75 did not change.FVC, FEV1, PEF, MMF were used to analyze the relationship between lung functions and AMS .There was no difference in lung functions between AMS group and NON AMS group at sea-level, but lung functions of AMS group were significantly lower than those of NON AMS group in FVC , MMF at high altitude .There was difference between AMS group and NON AMS group in the rate of change of FVC and MMF .Logistic regression analysis showed that the rate of change of FVC was an independent risk factor , while correlation analysis showed that the change of FVC and the change of oxygen saturation were relevant.Conclusion Lung functions showed restrictive decrease after acute high altitude exposure .Changes of lung func-tions will increase hypoxia and susceptiblity to AMS .