BACKGROUND Lower body positive pressure(LBPP)treadmill has potential applications for improving the gait of patients after stroke,but the related mechanism remains unclear.CASE SUMMARY A 62-year-old male patient suffe...BACKGROUND Lower body positive pressure(LBPP)treadmill has potential applications for improving the gait of patients after stroke,but the related mechanism remains unclear.CASE SUMMARY A 62-year-old male patient suffered from ischemic stroke with hemiplegic gait.He was referred to our hospital because of a complaint of left limb weakness for 2 years.The LBPP training was performed one session per day and six times per week for 2 wk.The dynamic plantar pressure analysis was taken every 2 d.Meanwhile,three-digital gait analysis and synchronous electromyography as well as clinical assessments were taken before and after LBPP intervention and at the 4-wk follow-up.During LBPP training,our patient not only improved his lower limb muscle strength and walking speed,but more importantly,the symmetry index of various biomechanical indicators improved.Moreover,the patient’s planter pressure transferring from the heel area to toe area among the LBPP training process and the symmetry of lower body biomechanical parameters improved.CONCLUSION In this study,we documented a dynamic improvement of gait performance in a stroke patient under LBPP training,which included lower limb muscle strength,walking speed,and symmetry of lower limb biomechanics.Our study provides some crucial clues about the potential dynamic mechanism for LBPP training on gait and balance improvement,which is related to rebuilding foot pressure distribution and remodeling symmetry of biomechanics of the lower limb.展开更多
BACKGROUND Knee joint pain and stiffness are the two main symptoms of knee osteoarthritis(OA)and thus restrict a patient’s activities,such as walking and walking up and downstairs.The lower body positive pressure(LBP...BACKGROUND Knee joint pain and stiffness are the two main symptoms of knee osteoarthritis(OA)and thus restrict a patient’s activities,such as walking and walking up and downstairs.The lower body positive pressure(LBPP)treadmill as one of the emerging body weight support system devices brings new hope for exerciserelated rehabilitation for knee OA patients.AIM To investigate the biomechanical effects and the subjective clinical assessment of LBPP treadmill walking exercise when compared with conventional therapy in mild to moderate knee OA patients.METHODS Eighteen patients with mild-to-moderate knee OA were recruited in this randomized controlled trial(RCT)study.The eligible knee OA patients were randomly assigned to two groups:LBPP and control groups.The patients in the LBPP group performed an LBPP walking training program for 30 min/session per day,6 d per week for 2 wk whereas the patients in the control group performed walking on the ground for the same amount.All patients underwent clinical assessments and three-dimensional gait analysis at pre-and 2-wk post-treatment.RESULTS The Western Ontario and McMaster Universities Arthritis Index and visual analog scale scores in both the LBPP group and control group were found to decrease significantly at the post-treatment point than the pre-treatment point(LBPP:70.25±13.93 vs 40.50±11.86;3.88±0.99 vs 1.63±0.52;control:69.20±8.88 vs 48.10±8.67;3.80±0.79 vs 2.60±0.70,P<0.001).Moreover,compared with the control group,the LBPP group showed more improvements in walking speed(P=0.007),stride length(P=0.037),and knee range of motion(P=0.048)during walking,which represented more improvement in walking ability.CONCLUSION The results of our RCT study showed that the LBPP group has a greater effect on improving gait parameters than the conventional group,although there was no significant advantage in clinical assessment.This finding indicates that LBPP treadmill walking training might be an effective approach for alleviating pain symptoms and improving lower extremity locomotion in mild to moderate knee OA patients.展开更多
AIM: To explore the pathogenesis of asymmetric primary open angle glaucoma(POAG) in both eyes by comparing the intraocular pressure(IOP) of patients who sleep in different positions and to investigate the relatio...AIM: To explore the pathogenesis of asymmetric primary open angle glaucoma(POAG) in both eyes by comparing the intraocular pressure(IOP) of patients who sleep in different positions and to investigate the relationship between IOP variations and sleep positions.METHODS: One hundred and thirty-one patients with asymmetric POAG and forty-six healthy volunteers were enrolled. All participants completed a questionnaire that provided information about their sleep laterality. The cup disc ratio(C/D) and visual field defect established binocular asymmetry. The IOP of both eyes was measured using i Care parameters after the patients were asked to change body position. The "worse" and "better" eyes were identified according to the diagnosis, whereas the "dependent" and "independent" eyes were defined according to the lateral position. RESULTS: No significant difference in sleep laterality was observed between healthy people and patients with POAG(F=3.195, P=0.362). Among the enrolled patients, the IOP of the dependent eye was always greater than that of the independent eye in the lateral position(P〈0.05). In the patients with binocular asymmetric POAG, the questionnaire clearly showed that 85.7% of left side preferences were found their left eyes to be the worse eyes and the right eyes of 71.4% patients with a right side preference were the more serious. When the asymmetric C/D ratio was greater than or equal to 0.2, the worse eye of patients with POAG and a preferred sleeping position was the dependent eye(χ~2=16.762, P=0.001).CONCLUSION: A higher IOP was measured in the dependent eye in the lateral position. The long-term tendency to choose a lateral sleeping position might lead the dependent eye to manifest more severe symptoms than the independent eye. Thus, the lateral sleeping position might be one cause of asymmetric POAG.展开更多
BACKGROUND As survival has been prolonged owing to surgical and medical improvements,liver failure has become a prognostic determinant in patients with congestive heart diseases.Congestive hepatopathy,an abnormal stat...BACKGROUND As survival has been prolonged owing to surgical and medical improvements,liver failure has become a prognostic determinant in patients with congestive heart diseases.Congestive hepatopathy,an abnormal state of the liver as a result of congestion,insidiously proceed toward end-stage liver disease without effective biomarkers evaluating pathological progression.Regular measurements of shear wave elastography cannot qualify liver fibrosis,which is a prognosticator in any type of chronic liver disease,in cases of congestion because congestion makes the liver stiff without fibrosis.We hypothesized that the effects of congestion and fibrosis on liver stiffness can be dissociated by inducing architectural deformation of the liver to expose structural rigidity.To establish a strategy measuring liver stiffness as a reflection of architectural rigidity under congestion.METHODS Two-dimensional shear wave elastography(2dSWE)was measured in the supine(Sp)and left decubitus(Ld)positions in 298 consecutive cases as they were subjected to an ultrasound study for various liver diseases.Regions of interest were placed at twelve sites,and the median and robust coefficient of variation were calculated.Numerical data were compared using the Mann-Whitney U or Kruskal-Wallis test followed by Dunn's post-hoc multiple comparisons.The inferior vena cava(IVC)diameters at different body positions were compared using the Wilcoxon matched pairs signed rank test.The number of cases with cardiothoracic ratios greater than or not greater than 50%was compared using Fisher’s exact test.A correlation of 2dSWE between different body positions was evaluated by calculating Spearman correlation coefficients.RESULTS The IVC diameter was significantly reduced in Ld in subjects with higher 2dSWE values in Ld(LdSWE)than in Sp(SpSWE)(P=0.007,(average±SD)13.9±3.6 vs 13.1±3.4 mm)but not in those with lower LdSWE values(P=0.32,13.3±3.5 vs 13.0±3.5 mm).In 81 subjects,SpSWE was increased or decreased in Ld beyond the magnitude of robust coefficient of variation,which suggests that body postural changes induced an alteration of liver stiffness significantly larger than the technical dispersion.Among these subjects,all 37 with normal SpSWE had a higher LdSWE than SpSWE(Normal-to-Hard,SpSWE-LdSWE(Δ2dSWE):(minimum-maximum)-0.74--0.08 m/sec),whereas in 44 residual subjects with abnormal SpSWE,LdSWE was higher in 27 subjects(Hard-to-Hard,-0.74--0.05 m/sec)and lower in 17 subjects(Hard-to-Soft,0.04-0.52 m/sec)than SpSWE.SpSWE was significantly correlated withΔ2dSWE only in Hard-to-Soft(P<0.0001).Δ2dSWE was larger in each lobe than in the entire liver.When Hard-to-Hard and Hard-to-Soft values were examined for each lobe,fibrosis-4 or platelet counts were significantly higher or lower only for Hard-to-Soft vs Normal-to-Hard cases.CONCLUSION Gravity alters the hepatic architecture during body postural changes,causing outflow blockage in hepatic veins.A rigid liver is resistant to structural deformation.Stiff-liver softening in the Ld position suggests a fibrous liver.展开更多
The problems of movement apparatus in children, youth and even adolescents aren’t connected with “a weakness of muscles” but with a shortening of muscles, tendons, and capsules which in orthopaedic literature is ca...The problems of movement apparatus in children, youth and even adolescents aren’t connected with “a weakness of muscles” but with a shortening of muscles, tendons, and capsules which in orthopaedic literature is called “contracture” [1] [2] [3] [4]. The older way of thinking about the problem was based on the conviction that “weak muscles” cause and make problems;we, however, present on many examples that “restriction of movements” doing by shortening of soft tissues makes contracture and incorrect position of joints, body parts, the serious and frequent clinical problems.展开更多
This paper presents a multi-person vision tracking approach based on human body localization features to address the problem of interactive object localization and tracking in a home monitoring scenario.Firstly,the hu...This paper presents a multi-person vision tracking approach based on human body localization features to address the problem of interactive object localization and tracking in a home monitoring scenario.Firstly,the human body localization model is used to obtain the 3D position of the human body,which is then used to construct the human body motion model based on the Kalman filter method.At the same time,the human appearance model is constructed by fusing human color features and features of the histogram of oriented gradient to better characterize the human body.Secondly,the human body observation model is constructed based on the human body motion model and appearance model to measure the similarities between the human body state sequence in the historical frame and the human body observation result in the current frame,and the cost matrix is then obtained.Thirdly,the Hungarian maximum matching algorithm is employed to match each human body in the current and historical frames,and the exception detection mechanism is simultaneously constructed to further reduce the probability of human tracking and matching failure.Finally,a multi-person vision tracking verification platform was constructed,and the achieved average accuracy was 96.6%in the case of human body overlapping,occlusion,disappearance,and appearance;this verifies the feasibility and effectiveness of the proposed method.展开更多
基金National Natural Science Foundation for Young Scientists of China,No.81902281Guangdong Medical Science and Technology Research Foundation of China,No.A2019120 and No.A2020362and Special Project of Chinese Government for Science and Technology of Guangdong Province,No.2019SKJ003.
文摘BACKGROUND Lower body positive pressure(LBPP)treadmill has potential applications for improving the gait of patients after stroke,but the related mechanism remains unclear.CASE SUMMARY A 62-year-old male patient suffered from ischemic stroke with hemiplegic gait.He was referred to our hospital because of a complaint of left limb weakness for 2 years.The LBPP training was performed one session per day and six times per week for 2 wk.The dynamic plantar pressure analysis was taken every 2 d.Meanwhile,three-digital gait analysis and synchronous electromyography as well as clinical assessments were taken before and after LBPP intervention and at the 4-wk follow-up.During LBPP training,our patient not only improved his lower limb muscle strength and walking speed,but more importantly,the symmetry index of various biomechanical indicators improved.Moreover,the patient’s planter pressure transferring from the heel area to toe area among the LBPP training process and the symmetry of lower body biomechanical parameters improved.CONCLUSION In this study,we documented a dynamic improvement of gait performance in a stroke patient under LBPP training,which included lower limb muscle strength,walking speed,and symmetry of lower limb biomechanics.Our study provides some crucial clues about the potential dynamic mechanism for LBPP training on gait and balance improvement,which is related to rebuilding foot pressure distribution and remodeling symmetry of biomechanics of the lower limb.
基金the Medical Ethics Association of the Fifth Affiliated Hospital of Guangzhou Medical University(No.KY01-2018-10-18).
文摘BACKGROUND Knee joint pain and stiffness are the two main symptoms of knee osteoarthritis(OA)and thus restrict a patient’s activities,such as walking and walking up and downstairs.The lower body positive pressure(LBPP)treadmill as one of the emerging body weight support system devices brings new hope for exerciserelated rehabilitation for knee OA patients.AIM To investigate the biomechanical effects and the subjective clinical assessment of LBPP treadmill walking exercise when compared with conventional therapy in mild to moderate knee OA patients.METHODS Eighteen patients with mild-to-moderate knee OA were recruited in this randomized controlled trial(RCT)study.The eligible knee OA patients were randomly assigned to two groups:LBPP and control groups.The patients in the LBPP group performed an LBPP walking training program for 30 min/session per day,6 d per week for 2 wk whereas the patients in the control group performed walking on the ground for the same amount.All patients underwent clinical assessments and three-dimensional gait analysis at pre-and 2-wk post-treatment.RESULTS The Western Ontario and McMaster Universities Arthritis Index and visual analog scale scores in both the LBPP group and control group were found to decrease significantly at the post-treatment point than the pre-treatment point(LBPP:70.25±13.93 vs 40.50±11.86;3.88±0.99 vs 1.63±0.52;control:69.20±8.88 vs 48.10±8.67;3.80±0.79 vs 2.60±0.70,P<0.001).Moreover,compared with the control group,the LBPP group showed more improvements in walking speed(P=0.007),stride length(P=0.037),and knee range of motion(P=0.048)during walking,which represented more improvement in walking ability.CONCLUSION The results of our RCT study showed that the LBPP group has a greater effect on improving gait parameters than the conventional group,although there was no significant advantage in clinical assessment.This finding indicates that LBPP treadmill walking training might be an effective approach for alleviating pain symptoms and improving lower extremity locomotion in mild to moderate knee OA patients.
基金Supported by the National Major Scientific Equipment Program (NO.2012YQ12008005)the Health Research Funding of Sichuan Province in 2017 (No.17PJ539)
文摘AIM: To explore the pathogenesis of asymmetric primary open angle glaucoma(POAG) in both eyes by comparing the intraocular pressure(IOP) of patients who sleep in different positions and to investigate the relationship between IOP variations and sleep positions.METHODS: One hundred and thirty-one patients with asymmetric POAG and forty-six healthy volunteers were enrolled. All participants completed a questionnaire that provided information about their sleep laterality. The cup disc ratio(C/D) and visual field defect established binocular asymmetry. The IOP of both eyes was measured using i Care parameters after the patients were asked to change body position. The "worse" and "better" eyes were identified according to the diagnosis, whereas the "dependent" and "independent" eyes were defined according to the lateral position. RESULTS: No significant difference in sleep laterality was observed between healthy people and patients with POAG(F=3.195, P=0.362). Among the enrolled patients, the IOP of the dependent eye was always greater than that of the independent eye in the lateral position(P〈0.05). In the patients with binocular asymmetric POAG, the questionnaire clearly showed that 85.7% of left side preferences were found their left eyes to be the worse eyes and the right eyes of 71.4% patients with a right side preference were the more serious. When the asymmetric C/D ratio was greater than or equal to 0.2, the worse eye of patients with POAG and a preferred sleeping position was the dependent eye(χ~2=16.762, P=0.001).CONCLUSION: A higher IOP was measured in the dependent eye in the lateral position. The long-term tendency to choose a lateral sleeping position might lead the dependent eye to manifest more severe symptoms than the independent eye. Thus, the lateral sleeping position might be one cause of asymmetric POAG.
文摘BACKGROUND As survival has been prolonged owing to surgical and medical improvements,liver failure has become a prognostic determinant in patients with congestive heart diseases.Congestive hepatopathy,an abnormal state of the liver as a result of congestion,insidiously proceed toward end-stage liver disease without effective biomarkers evaluating pathological progression.Regular measurements of shear wave elastography cannot qualify liver fibrosis,which is a prognosticator in any type of chronic liver disease,in cases of congestion because congestion makes the liver stiff without fibrosis.We hypothesized that the effects of congestion and fibrosis on liver stiffness can be dissociated by inducing architectural deformation of the liver to expose structural rigidity.To establish a strategy measuring liver stiffness as a reflection of architectural rigidity under congestion.METHODS Two-dimensional shear wave elastography(2dSWE)was measured in the supine(Sp)and left decubitus(Ld)positions in 298 consecutive cases as they were subjected to an ultrasound study for various liver diseases.Regions of interest were placed at twelve sites,and the median and robust coefficient of variation were calculated.Numerical data were compared using the Mann-Whitney U or Kruskal-Wallis test followed by Dunn's post-hoc multiple comparisons.The inferior vena cava(IVC)diameters at different body positions were compared using the Wilcoxon matched pairs signed rank test.The number of cases with cardiothoracic ratios greater than or not greater than 50%was compared using Fisher’s exact test.A correlation of 2dSWE between different body positions was evaluated by calculating Spearman correlation coefficients.RESULTS The IVC diameter was significantly reduced in Ld in subjects with higher 2dSWE values in Ld(LdSWE)than in Sp(SpSWE)(P=0.007,(average±SD)13.9±3.6 vs 13.1±3.4 mm)but not in those with lower LdSWE values(P=0.32,13.3±3.5 vs 13.0±3.5 mm).In 81 subjects,SpSWE was increased or decreased in Ld beyond the magnitude of robust coefficient of variation,which suggests that body postural changes induced an alteration of liver stiffness significantly larger than the technical dispersion.Among these subjects,all 37 with normal SpSWE had a higher LdSWE than SpSWE(Normal-to-Hard,SpSWE-LdSWE(Δ2dSWE):(minimum-maximum)-0.74--0.08 m/sec),whereas in 44 residual subjects with abnormal SpSWE,LdSWE was higher in 27 subjects(Hard-to-Hard,-0.74--0.05 m/sec)and lower in 17 subjects(Hard-to-Soft,0.04-0.52 m/sec)than SpSWE.SpSWE was significantly correlated withΔ2dSWE only in Hard-to-Soft(P<0.0001).Δ2dSWE was larger in each lobe than in the entire liver.When Hard-to-Hard and Hard-to-Soft values were examined for each lobe,fibrosis-4 or platelet counts were significantly higher or lower only for Hard-to-Soft vs Normal-to-Hard cases.CONCLUSION Gravity alters the hepatic architecture during body postural changes,causing outflow blockage in hepatic veins.A rigid liver is resistant to structural deformation.Stiff-liver softening in the Ld position suggests a fibrous liver.
文摘The problems of movement apparatus in children, youth and even adolescents aren’t connected with “a weakness of muscles” but with a shortening of muscles, tendons, and capsules which in orthopaedic literature is called “contracture” [1] [2] [3] [4]. The older way of thinking about the problem was based on the conviction that “weak muscles” cause and make problems;we, however, present on many examples that “restriction of movements” doing by shortening of soft tissues makes contracture and incorrect position of joints, body parts, the serious and frequent clinical problems.
基金the Natural Science Foundation of Shanghai Municipality(Grant No.18ZR1415100)the National Natural Science Foundation of China(Grant No.61703262)。
文摘This paper presents a multi-person vision tracking approach based on human body localization features to address the problem of interactive object localization and tracking in a home monitoring scenario.Firstly,the human body localization model is used to obtain the 3D position of the human body,which is then used to construct the human body motion model based on the Kalman filter method.At the same time,the human appearance model is constructed by fusing human color features and features of the histogram of oriented gradient to better characterize the human body.Secondly,the human body observation model is constructed based on the human body motion model and appearance model to measure the similarities between the human body state sequence in the historical frame and the human body observation result in the current frame,and the cost matrix is then obtained.Thirdly,the Hungarian maximum matching algorithm is employed to match each human body in the current and historical frames,and the exception detection mechanism is simultaneously constructed to further reduce the probability of human tracking and matching failure.Finally,a multi-person vision tracking verification platform was constructed,and the achieved average accuracy was 96.6%in the case of human body overlapping,occlusion,disappearance,and appearance;this verifies the feasibility and effectiveness of the proposed method.