The connotation of the "four-dimensional pivot-earth" qi transformation mode is a dialectical system of the ascending and descending of yin-yang qi movement， which presented as "the middle Jiao showing earth qi mediating， the left wheel showing water and wood ascending， and the right wheel showing fire and metal converting and descending". Based on this dialectical thinking， it is believed that the core pathogenesis of myasthenia gravis is deficiency of center qi and transportation failure to pivot-earth； the middle-stage characteristics of the disease progression are the loss of mediation of the central qi， resulting in water coldness and wood constraint， and clear yang failing to ascend； the final outcome of this disease is the loss of astringeing of lung metal and qi sinking. The treatment should be based on the rule of qi movement， so for the start-stage， Buzhong Yiqi Decoction （补中益气汤） should be used as the basis to nourish the earth and consolidate the root， and restrengthen the middle qi； for the middle-stage， herbs like Yingyanghuo （Epimedium brevicornu Maxim.）， Bajitian （Morinda officinalis How） could be combined to warm the water and soothe the wood， raise yang and boost qi； for the final stage， plus Sini Decoction （四逆汤） to astringe metal to stop collapse， and powerfully supplement original qi. All these medicinals can promote pivot-earth re-transportation， four-dimensional transformation， and regular circulation of qi movement， so as to provide thoughts for improving the clinical effectiveness of myasthenia gravis.

Heart failure(HF)is the final stage of various cardiovascular diseases.The period of high incidence of death and readmission in patients with HF within 2 to 3 months after discharge is defined as the"vulnerable period".The management of vulnerable period focuses on how to identify high-risk groups with the need of close follow-up and more active intervention.Despite the application of various effective medical treatment and nursing strategies,readmissions in HF patients remain high,which not only poses a significant financial burden on the healthcare system but also carries the prognostic impact of worsening survival associated with repeated hospitalizations.Remote monitoring is a promising approach for early detection of worsening HF and intervention before apparent decompensation.Remote monitoring includes patient reporting of remote vital signs monitoring,wearable devices,information from cardiac implantable electronic devices and invasive remote hemodynamic monitoring.Remote cardiac monitoring devices have developed rapidly.A wide variety of monitoring devices have been developed,and trials have been conducted to explore the availability and safety of remote monitoring devices and their effectiveness in reducing the risk of HF re-hospitalization.Wearable devices are easy to be accepted by patients because of their non-invasive,portable,cost and other factors.

BACKGROUND:At present,there are many clinical studies on dysphagia,but little is known about the stress of bones and hyoid muscles caused by dysphagia.OBJECTIVE:To establish a three-dimensional model of swallowing musculoskeletal system to investigate the stress changes of hyoid and suprahyoid muscles during swallowing.METHODS:A healthy adult male was selected for head and neck CT scanning.A three-dimensional model was constructed by image extraction method.According to hyoid motion,the lowest and highest positions of hyoid were set,and the muscle strength of suprahyoid muscles was successively loaded to observe the stress influence of suprahyoid muscles on hyoid under physiological state.By changing the material properties of muscles,we simulated different degrees of dysphagia and observed the stress changes of suprahyoid muscle group under the condition of dysphagia.RESULTS AND CONCLUSION:(1)The finite element models including C2-C4 vertebrae,partial temporal bone,mandible,hyoid,and mylohyoid-geniohyoid muscle were established,which could reflect the displacement of hyoid and stress changes during swallowing.(2)Under physiological conditions,among suprahyoid muscles,mylohyoid muscle had the greatest influence on hyoid stress,followed by digastric muscle,geniohyoid muscle,and stylohyoid muscle.(3)By simulating different degrees of dysphagia,it was found that with the increase of the severity of dysphagia,the stress of suprahyoid muscles gradually increased.(4)These findings conclude that among suprahyoid muscles,mylohyoid muscle and digastric muscle have the greatest influence on hyoid stress,which suggests the importance of specific muscle stimulation.The aggravation of dysphagia was positively correlated with the stress change of suprahyoid muscles,which could provide a biomechanical reference for the mechanism study and clinical diagnosis and treatment of dysphagia.

Objective:To explore the value of three-dimensional automatic right ventricular quantitive analysis（3D Auto RVQ）technology in predicting the improvement of left ventricular ejection fraction（LVEF）in patients with heart failure with reduced ejection fraction（HFrEF）.Methods:A retrospective analysis was conducted on 89 HFrEF patients admitted to the Cardiology Department of Central China Fuwai Hospital of Zhengzhou University from April 2022 to June 2024. All patients received medication treatment and were further divided into heart failure with improved ejection fraction（HFimpEF）group and non HFimpEF group based on changes detected by echocardiography in LVEF after treatment. The clinical data，biological indicators，and medication treatment status of patients were collected，routine echocardiographic parameters and right ventricular strain parameters were measured，3D right ventricular ejection fraction（3D-RVEF），3D right ventricular stroke volume index（3D-RVSVI），3D right ventricular end-diastolic volume index（3D-RVEDVI），3D right ventricular end-systolic volume index（3D-RVESVI），3D tricuspid annular plane systolic excursion（3D-TAPSE），and 3D right ventricular fractional area change（3D-RVFAC）were measured using 3D Auto RVQ technology. The differences of the above parameters between the two groups were compared. The ROC curve was used to analyze the predictive efficiency of right ventricular parameters for HFimpEF，and the area under ROC curve（AUC）was calculated and compared. Logistic regression models were used to analyze the predictive value of right ventricular parameters for HFimpEF.Results:Compared with the non HFimpEF group，the HFimpEF group had a younger age，shorter heart failure course，a smaller proportion of males，New York Heart Association（NYHA）functional class ≥Ⅲ，and patients with concomitant coronary heart disease. The baseline LVEF，absolute value of two dimensional right ventricular global longitudinal strain（2D-RVGLS），3D-RVEF，3D-TAPSE，and 3D-RVSVI were higher in the HFimpEF group（all P<0.05）. ROC curve analysis showed that the AUC of 3D-RVEF for predicting HFimpEF was 0.858，and the predictive efficiency was higher than other right ventricular parameters. According to the Yoden index，the optimal cutoff value for predicting HFimpEF based on 3D-RVEF was 36.2%，with a corresponding sensitivity of 84.0% and specificity of 75.0%. After adjusting for clinical and other echocardiographic parameters，the logistic regression model showed that 3D-RVEF was an independent predictor of HFimpEF（ OR=1.435，95% CI=1.145-1.800， P<0.05）. Conclusions:The 3D-RVEF evaluated by 3D Auto RVQ technology has high predictive value for HFimpEF，which can provide a reference for clinical treatment，thereby improving the prognosis of HFrEF patients.

Heart failure(HF)is the final stage of various cardiovascular diseases.The period of high incidence of death and readmission in patients with HF within 2 to 3 months after discharge is defined as the"vulnerable period".The management of vulnerable period focuses on how to identify high-risk groups with the need of close follow-up and more active intervention.Despite the application of various effective medical treatment and nursing strategies,readmissions in HF patients remain high,which not only poses a significant financial burden on the healthcare system but also carries the prognostic impact of worsening survival associated with repeated hospitalizations.Remote monitoring is a promising approach for early detection of worsening HF and intervention before apparent decompensation.Remote monitoring includes patient reporting of remote vital signs monitoring,wearable devices,information from cardiac implantable electronic devices and invasive remote hemodynamic monitoring.Remote cardiac monitoring devices have developed rapidly.A wide variety of monitoring devices have been developed,and trials have been conducted to explore the availability and safety of remote monitoring devices and their effectiveness in reducing the risk of HF re-hospitalization.Wearable devices are easy to be accepted by patients because of their non-invasive,portable,cost and other factors.

BACKGROUND:At present,there are many clinical studies on dysphagia,but little is known about the stress of bones and hyoid muscles caused by dysphagia.OBJECTIVE:To establish a three-dimensional model of swallowing musculoskeletal system to investigate the stress changes of hyoid and suprahyoid muscles during swallowing.METHODS:A healthy adult male was selected for head and neck CT scanning.A three-dimensional model was constructed by image extraction method.According to hyoid motion,the lowest and highest positions of hyoid were set,and the muscle strength of suprahyoid muscles was successively loaded to observe the stress influence of suprahyoid muscles on hyoid under physiological state.By changing the material properties of muscles,we simulated different degrees of dysphagia and observed the stress changes of suprahyoid muscle group under the condition of dysphagia.RESULTS AND CONCLUSION:(1)The finite element models including C2-C4 vertebrae,partial temporal bone,mandible,hyoid,and mylohyoid-geniohyoid muscle were established,which could reflect the displacement of hyoid and stress changes during swallowing.(2)Under physiological conditions,among suprahyoid muscles,mylohyoid muscle had the greatest influence on hyoid stress,followed by digastric muscle,geniohyoid muscle,and stylohyoid muscle.(3)By simulating different degrees of dysphagia,it was found that with the increase of the severity of dysphagia,the stress of suprahyoid muscles gradually increased.(4)These findings conclude that among suprahyoid muscles,mylohyoid muscle and digastric muscle have the greatest influence on hyoid stress,which suggests the importance of specific muscle stimulation.The aggravation of dysphagia was positively correlated with the stress change of suprahyoid muscles,which could provide a biomechanical reference for the mechanism study and clinical diagnosis and treatment of dysphagia.

Objective:To explore the value of three-dimensional automatic right ventricular quantitive analysis（3D Auto RVQ）technology in predicting the improvement of left ventricular ejection fraction（LVEF）in patients with heart failure with reduced ejection fraction（HFrEF）.Methods:A retrospective analysis was conducted on 89 HFrEF patients admitted to the Cardiology Department of Central China Fuwai Hospital of Zhengzhou University from April 2022 to June 2024. All patients received medication treatment and were further divided into heart failure with improved ejection fraction（HFimpEF）group and non HFimpEF group based on changes detected by echocardiography in LVEF after treatment. The clinical data，biological indicators，and medication treatment status of patients were collected，routine echocardiographic parameters and right ventricular strain parameters were measured，3D right ventricular ejection fraction（3D-RVEF），3D right ventricular stroke volume index（3D-RVSVI），3D right ventricular end-diastolic volume index（3D-RVEDVI），3D right ventricular end-systolic volume index（3D-RVESVI），3D tricuspid annular plane systolic excursion（3D-TAPSE），and 3D right ventricular fractional area change（3D-RVFAC）were measured using 3D Auto RVQ technology. The differences of the above parameters between the two groups were compared. The ROC curve was used to analyze the predictive efficiency of right ventricular parameters for HFimpEF，and the area under ROC curve（AUC）was calculated and compared. Logistic regression models were used to analyze the predictive value of right ventricular parameters for HFimpEF.Results:Compared with the non HFimpEF group，the HFimpEF group had a younger age，shorter heart failure course，a smaller proportion of males，New York Heart Association（NYHA）functional class ≥Ⅲ，and patients with concomitant coronary heart disease. The baseline LVEF，absolute value of two dimensional right ventricular global longitudinal strain（2D-RVGLS），3D-RVEF，3D-TAPSE，and 3D-RVSVI were higher in the HFimpEF group（all P<0.05）. ROC curve analysis showed that the AUC of 3D-RVEF for predicting HFimpEF was 0.858，and the predictive efficiency was higher than other right ventricular parameters. According to the Yoden index，the optimal cutoff value for predicting HFimpEF based on 3D-RVEF was 36.2%，with a corresponding sensitivity of 84.0% and specificity of 75.0%. After adjusting for clinical and other echocardiographic parameters，the logistic regression model showed that 3D-RVEF was an independent predictor of HFimpEF（ OR=1.435，95% CI=1.145-1.800， P<0.05）. Conclusions:The 3D-RVEF evaluated by 3D Auto RVQ technology has high predictive value for HFimpEF，which can provide a reference for clinical treatment，thereby improving the prognosis of HFrEF patients.

Based on the theory of engineering medicine,a consensus which takes the basic medical ethics of harm reduction as the starting point is proposed to addresses the current clinical problems of a wide variety of radiotherapy setup equipments and methods,large differences by principles,and inaccurate setup.The consensus is formed in two aspects.(1)Advocate coordination of multiple setup methods for joint setup;collect,compare,analyze and screen data on setup methods;determine the operational guidelines and methods for joint setup based on the principle of standardized and unified clinical consistency,with a view to achieving the clinical purpose of greatly ensuring the precision of radiotherapy setup and radiotherapy safety without relying on the golden standard.(2)Standardize the operational methods for tracing setup deviations,so that when the difference in setup leads to poor clinical consistency,the cause of deviation can be traced and the effectiveness of different setups can be screened.Based on the concept of engineering medicine,the consensus is expected to standardize the method of radiotherapy setup,realize accurate radiotherapy,improve treatment effect and show medical ethical care.

Traumatic dental injuries(TDIs)of teeth occur frequently in children and adolescents.TDIs that impact the periodontal tissues and alveolar tissue can be classified into concussion,subluxation,extrusive luxation,intrusive luxation,lateral luxation,and avulsion.In these TDIs,management of injured soft tissue,mainly periodontal ligament,and dental pulp,is crucial in maintaining the function and longevity of the injured teeth.Factors that need to be considered for management in laxation injuries include the maturation stage of the traumatic teeth,mobility,direction of displacement,distance of displacement,and whether there are alveolar fractures.In avulsion,the maturation stage of the permanent tooth,the out-socket time,storage media/condition of the avulsed tooth,and management of the PDL should also be considered.Especially,in this review,we have subdivided the immature tooth into the adolescent tooth(Nolla stage 9)and the very young tooth(Nolla stage 8 and below).This consensus paper aimed to discuss the impacts of those factors on the trauma management and prognosis of TDI to provide a streamlined guide for clinicians from clinical evaluation,diagnostic process,management plan decision,follow-up,and orthodontic treatment for tooth luxation and avulsion injuries.

Based on the theory of engineering medicine,a consensus which takes the basic medical ethics of harm reduction as the starting point is proposed to addresses the current clinical problems of a wide variety of radiotherapy setup equipments and methods,large differences by principles,and inaccurate setup.The consensus is formed in two aspects.(1)Advocate coordination of multiple setup methods for joint setup;collect,compare,analyze and screen data on setup methods;determine the operational guidelines and methods for joint setup based on the principle of standardized and unified clinical consistency,with a view to achieving the clinical purpose of greatly ensuring the precision of radiotherapy setup and radiotherapy safety without relying on the golden standard.(2)Standardize the operational methods for tracing setup deviations,so that when the difference in setup leads to poor clinical consistency,the cause of deviation can be traced and the effectiveness of different setups can be screened.Based on the concept of engineering medicine,the consensus is expected to standardize the method of radiotherapy setup,realize accurate radiotherapy,improve treatment effect and show medical ethical care.