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La evaluación de la marcha en cinta caminadora puede resultar relevante para la toma de decisiones clínicas. No obstante, factores demográficos como la edad y el IMC pueden alterar la interpretación de los resultados. Nuestro objetivo fue obtener variables espacio- temporales, energéticas y costo de transporte durante la velocidad autoseleccionada en cinta caminadora para una muestra representativa de adultos uruguayos (n=28) y evaluar si diferentes rangos de edades e IMC pueden ser factores a tener en cuenta en pruebas clínicas donde se consideren dichas variables. Participaron 17 hombres y 11 mujeres (39,3 ± 14,8 años, 75,9 ± 12,5 kg, 1,74 ± 0,09 m, IMC 25,2 ± 4,06). Se realizó una reconstrucción 3D del movimiento en forma sincronizada con el consumo energético. Se obtuvieron valores de referencia y luego de agrupar los participantes según su IMC y rango de edad se compararon los datos mediante test de t (p≤0.05). Los resultados revelaron discrepancias significativas en las medidas espacio-temporales y energéticas de los adultos uruguayos al caminar en cinta con respecto a la literatura. La marcha difiere entre adultos jóvenes y de mediana edad en su velocidad autoseleccionada (p=0,03), longitud de zancada (p=0,01), trabajo mecánico externo (<0,001) y recuperación de energía mecánica (0,009), destacando la importancia de considerar la edad en evaluaciones clínicas. El IMC no influyó significativamente en estas variables. Estos hallazgos subrayan la necesidad de ajustar las interpretaciones de las pruebas clínicas de la marcha sobre cinta caminadora en adultos uruguayos de mediana edad (45 a 65 años).
Treadmill gait assessment can be relevant for clinical decision-making. However, demographic factors such as age and BMI may alter result interpretation. Our aim was to obtain spatiotemporal, energetic, and cost of transport variables during self-selected treadmill walking speed for a representative sample of Uruguayan adults (n=28) and to assess if different age ranges and BMI could be factors to consider in clinical tests involving these variables. Seventeen men and eleven women participated (39.3 ± 14.8 years, 75.9 ± 12.5 kg, 1.74 ± 0.09 m, BMI 25.2 ± 4.06). A synchronized 3D motion reconstruction was performed with energy consumption. Reference values were obtained and data were compared using t-tests (p≤0.05), after grouping participants by BMI and age range. Results revealed significant discrepancies in spatiotemporal and energetic measures of Uruguayan adults walking on the treadmill, compared to the literature. Gait differed between young and middle-aged adults in their self-selected speed (p=0.03), stride length (p=0.01), external mechanical work (p<0.001), and mechanical energy recovery (0.009), emphasizing the importance of considering age in clinical evaluations. BMI did not significantly influence these variables. These findings underscore the need to adjust interpretations of treadmill gait clinical tests in middle-aged Uruguayan adults (45 to 65 years).
A avaliação da marcha na esteira pode ser relevante para a tomada de decisões clínicas. No entanto, fatores demográficos como idade e IMC podem alterar a interpretação dos resultados. Nosso objetivo foi obter variáveis espaço-temporais, energéticas e custo de transporte durante a velocidade de caminhada autoselecionada na esteira para uma amostra representativa de adultos uruguaios (n = 28) e avaliar se diferentes faixas etárias e IMC podem ser fatores a serem considerados em testes clínicos que envolvam essas variáveis. Dezessete homens e onze mulheres participaram (39,3 ± 14,8 anos, 75,9 ± 12,5 kg, 1,74 ± 0,09 m, IMC 25,2 ± 4,06). Foi realizada uma reconstrução tridimensional do movimento sincronizada com o consumo de energia. Foram obtidos valores de referência e os dados foram comparados usando testes t (p≤0,05), após agrupar os participantes por IMC e faixa etária. Os resultados revelaram discrepâncias significativas nas medidas espaço-temporais e energéticas dos adultos uruguaios ao caminhar na esteira, em comparação com a literatura. A marcha diferiu entre adultos jovens e de meia-idade em sua velocidade autoselecionada (p=0,03), comprimento da passada (p=0,01), trabalho mecânico externo (<0,001) e recuperação de energia mecânica (0,009), destacando a importância de considerar a idade em avaliações clínicas. O IMC não influenciou significativamente essas variáveis. Esses achados destacam a necessidade de ajustar as interpretações dos testes clínicos de marcha na esteira em adultos uruguaios de meia- idade (45 a 65 anos).
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Humans , Male , Female , Adolescent , Adult , Middle Aged , Young Adult , Body Composition/physiology , Walking/physiology , Exercise Test/statistics & numerical data , Body Mass Index , Age DistributionABSTRACT
BACKGROUND:Calcaneal defects are common in clinical practice.It is difficult for surgeons to evaluate the effect of calcaneal reconstruction due to the complex anatomical structure and motor function of the heel.Finite element analysis has become an effective method for biomechanical behavior simulation and numerical analysis. OBJECTIVE:To compare the clinical effect and biomechanical characteristics of total calcaneal reconstruction with the Ⅱ-shaped and V-shaped fibular flap. METHODS:CT images of one left foot of a healthy 50-year-old male were acquired.Mimics software was used to obtain the preliminary three-dimensional model.Geomagic software was used to trim and curve the model.The model was imported into Solidworks software to simulate calcaneal reconstruction and complete the pre-processing of finite element calculation.Finally,Ansys software was used to solve the problem.The simulation results were compared with previous literature results to verify the effectiveness of the model.The surgical effect and biomechanical characteristics of the foot in different gait phases based on the simulated stress results were analyzed. RESULTS AND CONCLUSION:(1)Both Ⅱ-shaped and V-shaped fibular flaps could be used to reconstruct completely missing calcaneus,which could restore the length,width and height of normal calcaneus,and fill up the missing calcaneus bone.(2)Compared with the normal calcaneus,both configurations of fibular flaps showed a tendency for over-concentration of stress after loading.The normal calcaneus stress was mostly concentrated around the calcaneus nodule,the subtalar process and the calcaneus groove,while the stress of the two fibular flaps was mostly concentrated at the junction between the bone flap with the talus and cuboid bones.(3)The maximum stress of calcaneus was different between the two models and normal calcaneus under different simulation conditions,with statistically significant differences(P<0.05).Compared with the V-shaped fibular flaps,Ⅱ-shaped fibular flaps had less force change in different gaits and were closer to the normal calcaneus.The V-shaped fibular flap bore excessive stress during the period of push-off,and the grafted bone material may yield under this condition and have the risk of fractures.
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BACKGROUND:For the patients who have undergone unicompartmental knee arthroplasty,although the surgical effect is clear,there is still a lack of effective quantitative evaluation tools,and it is necessary to further explore the early postoperative gait and stability changes. OBJECTIVE:To investigate the changes in gait and stability before and after unicompartmental knee arthroplasty. METHODS:From May 2021 to May 2022,30 patients aged(63.80±9.31)years who planned to perform unilateral unicompartmental knee arthroplasty in the Department of Joint Surgery,Affiliated Hospital of Xuzhou Medical University were selected as the unicompartmental knee arthroplasty group.15 healthy elderly patients aged(61.28±8.60)years without a history of hip and knee pain and hip and knee joint dysfunction were recruited as the control group.Hospital for special surgery scores,stability parameters(center of pressure path length,95%confidence ellipse area)and gait parameters(pace,stride length,stride frequency,gait cycle,and the proportion of single support period)were recorded and compared in the control group and unicompartmental knee arthroplasty group before operation,1 and 3 months after operation. RESULTS AND CONCLUSION:(1)There was no significant difference in the step frequency between the patients 1 month after operation and those before operation in the unicompartmental knee arthroplasty group(P>0.05).The stability of 1 month after operation was worse than that before operation,and other parameters of 1 month after operation were better than those before operation,and the difference was statistically significant(P<0.05).(2)Hospital for special surgery score,gait and stability parameters at 3 months after operation were better than those before operation(P<0.05).(3)Compared with the control group,the pace,stride length,stride frequency,and the proportion of single support period of the unicompartmental knee arthroplasty group were significantly lower before and 3 months after operation.Center of pressure path length,95%confidence ellipse area and gait cycle were greater in the unicompartmental knee arthroplasty group than those in the control group,with statistically significant differences(P<0.05).(4)It is indicated that gait analysis is an effective means to quantitatively evaluate the rehabilitation status after unicompartmental knee arthroplasty.The early gait recovery after unicompartmental knee arthroplasty is good,but the gait frequency improvement is not obvious and the stability is poor 1 month after the operation.
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BACKGROUND:Human plantar pressure can reflect the health status of the lower limbs and even the whole body,which is an important basis for gait analysis,and body mass index is an important influencing factor. OBJECTIVE:To investigate the effect of body mass index on plantar pressure. METHODS:Twenty young college students from Xuzhou Medical University,including 10 males and 10 females aged 19-21 years,were selected as test subjects and divided into three groups according to the body mass index value:overweight group(body mass index>25 kg/m2,n=3),lean group(body mass index<18 kg/m2,n=4),and normal group(body mass index 18-25 kg/m2,n=13).A natural walking gait test was carried out on the three groups of subjects with a Zebris pressure distribution measurement plate to obtain the complete gait cycle parameters.The time proportion of support time phase,peak pressure,time to peak force,peak force and impulse volume were analyzed and the correlation between each parameter and the body mass index was analyzed by Person analysis. RESULTS AND CONCLUSION:(1)Compared with the other two groups,the time proportion of support time phase of subjects in the overweight group was relatively small,while the time proportion in the foot heel contact period and forefoot extension period was relatively large.There was a positive correlation of the time proportion of the foot heel contact period and forefoot extension period with body mass index,while there was a negative correlation between the time proportion of the arch support period and body mass index.(2)The peak pressure of the left arch and palm of the foot of the subjects of the overweight group was higher than that of the normal group,and the peak pressure of the left and right palm of the foot of the lean group was lower than that of the normal group.The peak pressure was positively correlated with the body mass index during the foot heel contact period.There was a significant positive correlation between the peak pressure of the left foot and body mass index during the arch support period as well as the peak pressure of both feet and body mass index during the forefoot extension period.(3)Plantar peak force time in the order of the gait cycle in increasing order:heel<arch<metatarsal<toe.In the foot heel contact period,the time of peak force was negatively correlated with body mass index,but they were positively correlated with each other in the forefoot extension period.In the arch support period,the time of peak force of the left arch was significantly positively correlated with body mass index.(4)Plantar peak force was mainly expressed as medial heel>toe/middle 2-4 metatarsal>lateral heel>medial and lateral metatarsal>arch;medial heel peak force was the largest,and the arch peak force was the smallest.Except for the toe of the left foot,there was a significant positive correlation between peak force and body mass index.(5)The maximum ground impulse of the lean group and the overweight group was in the foot heel contact stage,the minimum ground impulse was in the forefoot extension period,and the minimum ground impulse of the arch was in the normal group.There was a significant positive correlation between ground impulse and body mass index at different periods.(6)The results show that young people should control their body mass index,wear appropriate shoes,protect their feet and ankles,and prevent the occurrence of flat feet.
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BACKGROUND:Rotator cuff muscle degeneration(muscle atrophy,fibrosis and fatty infiltration)is a common condition after rotator cuff tears,which seriously affects shoulder function and surgical outcomes.Ginsenoside Rg1 has biological effects such as anti-oxidation,anti-apoptosis and lipid-lowering.However,the effect of ginsenoside Rg1 on muscle degeneration after rotator cuff tear has not been reported. OBJECTIVE:To investigate the effect of ginsenoside Rg1 on muscle degeneration after massive rotator cuff tear in mice. METHODS:Sixty C57BL/6J mice were randomly divided into sham group,model group,ginsenoside Rg1 low dose group and ginsenoside Rg1 high dose group,with 15 mice in each group.The skin of the right shoulder of mice in the sham group was cut and sutured.Massive rotator cuff tear mouse models of the right shoulder were established in the other three groups.Supraspinatus tendon and suprascapular nerve compression were administrated.Mice in the sham and model groups were intraperitoneally injected with 0.5 mL of saline after operation,while those in the ginsenoside Rg1 low and high dose groups were intraperitoneally injected with ginsenoside Rg1 30 and 60 mg/kg respectively,once a day,for 6 weeks.Mice were assessed for limb function by gait analysis the day after the last injection.After euthanasia,the supraspinatus muscle on the operated side was taken to measure the muscle atrophy rate and muscle contractility.Muscle tissue was stained with oil red O and Masson.RT-PCR was used to detect the expression of atrophy,fibrosis,and fatty infiltration related genes. RESULTS AND CONCLUSION:Compared with the model group,low-and high-dose ginsenoside Rg1 significantly increased paw print area and step length(P<0.05).Compared with the model group,low-and high-dose ginsenoside Rg1 significantly increased myofiber cross-sectional area and supraspinatus contractility(P<0.05),and significantly decreased wet muscle mass reduction ratio,fatty infiltration area ratio,and collagen fiber area ratio(P<0.05).Compared with the model group,low-and high-dose ginsenoside Rg1 significantly decreased the expression of atrophy,fibrosis,and fatty infiltration related genes(P<0.05).There was no significant difference in paw print area,supraspinatus muscle contractility,and myofiber cross-sectional area between ginsenoside Rg1 low and high dose groups(P>0.05),and all other indexes were better in the ginsenoside Rg1 high dose group than in the ginsenoside Rg1 low dose group(P<0.05).To conclude,ginsenoside Rg1 could significantly reduce muscle atrophy,fibrosis and fatty infiltration following massive rotator cuff tear in mice,which is beneficial to improve muscle strength and limb function.
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Objective: The efficacy of botulinum toxin type A (BoNT-A) injection on spasticity has usually been measured using the range of motion (ROM) of joints and Modified Ashworth Scale (MAS); however, they only evaluate muscle tone at rest. We objectively analyzed the gait of three patients with hemiplegia using three-dimensional motion analysis and ground reaction force (GRF) systems to evaluate muscle tone during gait.Materials and Methods: We measured passive ankle dorsiflexion ROM with knee extension and the MAS score for clinical evaluation, and gait speed, stride length, single-leg support phase during the gait cycle, joint angle, joint moment, and GRFs for kinematic evaluation before and one month after BoNT-A injection.Results: All patients showed an increase in ankle dorsiflexion ROM, improvement in MAS score, and increase in stride length. Case 1 showed an increase in gait speed, prolongation of the single-leg support phase, increase in hip extension angle and moment, and improvement in the vertical and anterior-posterior components of the GRFs. Case 2 showed an increase in gait speed, improvement in double knee action, increase in ankle plantar flexion moment, and improvement in propulsion in the progressive component of the GRFs. Case 3 exhibited a laterally directed force in the GRFs.Conclusion: We evaluated the effects of BoNT-A injections in three patients with hemiplegia using three-dimensional motion analysis and GRFs. The results of the gait analysis clarified the improvements and problems in hemiplegic gait and enabled objective explanations for patients.
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Objective:To establish a reliable,stable and clinically realistic model of blunt contusion injury to the rat skele-tal muscle. Method:A model of the rat gastrocnemius muscle blunt contusion injury was established by using a weight of 170g,a height of 70cm and a spring with a diameter of 0.5cm at the bottom to buffer the polymeric strik-ing part and guide the fall to hit for 5 consecutive times.The gait changes of rats were evaluated by CatWalk analysis system at 0h,12h,24h,3 days,7 days and 14 days after modeling;local histopathological changes were observed by HE staining and local ultrastructural changes were observed by transmission electron micros-copy.Enzyme-linked immunosorbent assay(ELISA)was used to detect the changes of tumor necrosis factor-α(TNF-α)in local tissues. Result:Compared with the blank group,the mean speed and maximum speed change rate of the model group were significantly decreased,and the difference was statistically significant(P<0.001);compared with the normal foot group,the maximum contact area,footprint area and standing phase duration of the limb of the injured limb group were significantly decreased,and the difference was statistically significant(P<0.05).A large infiltration of inflammatory cells and massive lysis necrosis of muscle fibers were observed on HE stain-ing after 3 days.By 14 days,although scar tissue was still present,tissue repair with HE staining was almost indistinguishable from that of the blank group.Vacuolation was observed in part of the sarcoplasmic reticulum at 0h after the blow,and lysis of muscle fibers and part of the sarcoplasmic reticulum at 3 days with in-creased inflammatory response which basically returned to normal by 14 days.The TNF-α level began to rise gradually and reached a peak from 0h to 12h after injury,and remained higher level from 12h to 72h,and the difference was statistically significant compared with the blank group(P<0.05),and basically returned to the normal level by 14 days. Conclusion:The model can cause moderate damage of skeletal muscle in rats,with a 14-day natural recovery time at least.It can provide as one of the methods for for the establishment of the rat skeletal muscle blunt contusion model.
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Objective:To investigate the effect of a visual walking training based on wearable cueing devices on ground reaction force of Parkinson's disease patients with freezing of gait. Method:Twenty-three PD with FOG(PD+FOG)were selected and twenty healthy controls(HC)were tested in gait laboratory.The experimental group was trained with wearable walking guide devices for 20 minutes,twice a day for one week.The Vicon 3D gait analysis system was used to collect the spatiotemporal parame-ters and the ground reaction force parameters of the non-dominant side and the dominant side including front-back peak,medial-lateral peak and the first vertical peak)of the experimental group and the control group be-fore and after training. Result:①After the intervention,the bilateral step length and velocity of patients in the experimental group in-creased signi ficantly(P<0.05),while cadence,double stance phase decreased significantly(P<0.05).After train-ing,there was no significant difference in the dominant step length,cadence and double stance phase between experimental group and control group(P>0.05).②After the training,bilateral parameters(landing angles of hip joints,the maximum angles of ankle dorsiflexion and plantar flexion,and the ranges of motion of lower limb joints)in the experimental group increased significantly,while the landing angles of knee joints de-creased,and the stage of the first peak of ankle joints was delayed,with statistical significance(P<0.05).Af-ter the training,knee joint landing angle,maximum ankle dorsiflexion angle,the first peak stage of ankle joint,lower limb joint range of motion had no significant difference between the experimental group and the control group in both sides(P>0.05).③After the intervention,the front-back peak value and the first vertical peak of the bilateral ground reaction force in the experimental group were significantly increased(P<0.05),while the medial-lateral peak value of the ground reaction force was significantly decreased(P<0.05).Compared with the control group,there was no significant difference in the backward peak,medial peak of non-domi-nant side and parameters of the dominant side(P>0.05). Conclusion:The visual walking training based on wearable walking guide devices improve the stability and consistency of gait of PD+FOG.
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Objective:To evaluate the reliability of the Edinburgh visual gait score(ECGS)and assess its validity by com-parihg the results to three-dimensional gait analysis.Additionally,the study examines the correlation between EVGS and gross motor function classification system(GMFCS).The findings are expected to support the clini-cal application of EVGS. Method:Twenty children with cerebral palsy(CP)were randomly selected from 727 children who underwent three-dimensional gait analysis at Yangzhi Rehabilitation Hospital between 2019 and 2021.The walking videos of CP were evaluated using EVGS by four evaluators with different experience backgrounds,and repeated by the same evaluators after one month.Intragroup correlation coefficient(ICC)was used to test inter-and intra-evaluator reliability.Spearman was used to test EVGS,three-dimensional gait analysis data and GMFCS. Result:The ICC of the first assessment among evaluators was 0.947(P<0.001),the ICC of the second as-sessment was 0.952(P<0.001),indicating high inter-and intra-evaluator reliability.The Spearman correlation analysis results showed a moderate relationship between ECGS and three-dimensional gait data,with poor valid-ity in coronal items.A significant correlation was found between EVGS and GMFCS.Further,the intra-item correlation analysis of EVGS showed that the foot,pelvis and trunk significantly influenced the overall EVGS outcomes. Conclusion:The inter-and intra-evaluator reliability among the four evaluators were highly reliable.The validi-ty of EVGS was lower when compared with three-dimensional gait analysis.However,EVGS were correlated with the motor dysfunction levels in CP.Overall,EVGS can be used as a substitute tool for gait analysis,which is the most reliable visual gait score at present.
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Objective:An inertial sensor-based motion capture system for rehabilitation therapy is feasible due to its simple measurement methods. However, a standard value must be used to evaluate or diagnose pathological gait kinematically. This study aimed to set a standard value by determining the averaged spatial-temporal parameter (STP) and range of motion (ROM) during gait in healthy participants.Methods:This study included 177 healthy individuals, who were grouped into six groups according to gender (male and female) and age (young, middle, and old). All participants walked under two speed conditions (NORMAL or FAST) and the gait was captured with an inertial sensor-based motion capture system. Eight types of STP and fourteen types of ROM were calculated.Results:Of the 132 variables (22 variables × 2 sexes × 3 ages), 123 variables for NORMAL and 112 variables for FAST followed the normal distribution. A main effect of age on walking velocity for FAST was noted but not for NORMAL. The middle and old ages depended on an increased cadence for maintaining walking velocity. Ankle and hip ROMs in the old were smaller than that in the young, and these differences were demonstrated more so during the FAST condition. There were gender differences in hip ROMs (men had greater internal-external rotation and women had greater flexion-extension).Conclusion:The standard value can be determined from variables in gait assessment, for young to elderly, and gender-specific.
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Gait analysis in a laboratory may be expensive, time-consuming, and restricted to a controlled environment. Validated wearable technology may be an alternative to such analysis. However, wearable technologies should demonstrate reference values of a healthy population. Objective: To establish spatio-temporal gait reference values of an accelerometer (G-Walk) in a healthy Brazilian population. Methods: This is a cross-sectional study with 124 healthy subjects evaluated with G-Walk in the 6-minute and 10-meter walk tests (6MWT and 10MWT). Gait parameters of Velocity, Cadence, Distance, and gait symmetry variables were retrieved for analysis. Clinical and demographical characteristics were also collected and tested with simple linear regression as covariables of the gait characteristics. The bootstrapped 5th percentile of the gait parameter established the reference values. If a covariable influence was found, the reference values were established by subgroup analysis according to the covariable. Results: The study analyzed 114 subjects, mostly women (67.74%), aged 39.36 (SD 12.18). Height was a covariable of cadence for the 10MWT and cadence and stride length for the 6MWT. Age and sex combined were covariables of 6MWT velocity, and sex alone was a covariable of 6MWT. All reference values for symmetry were above 89%, velocity at the 10MWT was above 1.0m/s, and distance at the 6MWT was 354m and 359.5 for females and males, respectively. Conclusions: Our study generated reference values for spatio-temporal gait analysis with G-Walk of a population of a major urban area, considering the covariables of age, height, and sex.
Análises da marcha em laboratório tem custo elevado, demandando tempo e ambiente controlado. Wearables são equipamentos portáteis que podem ser alternativas aos laboratórios. Valores de referência podem determinar parâmetros para análises de marcha de pessoas com patologias. Objetivo: Estabelecer valores de referência espaço-temporais de um acelerômetro (G-Walk) em uma população saudável. Métodos: Trata-se de um estudo transversal com indivíduos saudáveis avaliados com G-Walk nos testes de caminhada de 6 minutos e de 10 metros (TC6 e TC10). Velocidade, cadência, distância e de simetria da marcha foram analisados. Características clínicas e demográficas também foram testadas com regressão linear simples como covariáveis das características da marcha. Os valores de referência foram estabelecidos pelo quinto percentil dos parâmetros por bootstrap e na presença de covariáveis demográficas, os valores foram estabelecidos por análise de subgrupos, de acordo com a covariável. Resultados: O estudo analisou 114 sujeitos, em sua maioria mulheres (67,74%), com idade de 39,36 (DP 12,18). A altura foi uma covariável da cadência do TC10 e da cadência e comprimento da passada do TC6. Idade e sexo combinados foram covariáveis da velocidade do TC6, e o sexo foi uma covariável do TC6. Todos os valores de referência para simetria foram superiores a 89%, a velocidade no TC10 foi superior a 1,0m/s e a distância no TC6 foi de 354m e 359,5m para mulheres e homens, respectivamente. Conclusões: Nosso estudo gerou valores de referência para análise espaço-temporal da marcha com o equipamento G-Walk em uma população de uma grande área urbana, considerando as covariáveis idade, altura e sexo.
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Abstract Objectives Although osteonecrosis of the femoral head is a prevalent condition, its effects on gait parameters have not been thoroughly studied and are not well-established in the current literature. The primary aim of the present study is to describe gait in patients with a diagnosis of osteonecrosis. Methods This is a cross-sectional study. Nine patients diagnosed with osteonecrosis of the femoral head who were regularly followed-up at an outpatient clinic were selected for the present study and underwent gait analysis using Vicon Motion Capture Systems. Spatiotemporal data was obtained, and joint angles were calculated using an Euler angle coordinate system. Distal coordinate systems were used to calculate joint momentsand forceplatestoobtaingroundreactionforces. Results Patients with osteonecrosis presented with slower velocity (0.54 m/s ± 0.19) and smaller cadence (83.01 steps/min ± 13.23) than healthy patients. The pelvic obliquity range of motion was of 10.12° ± 3.03 and rotation was of 18.23° ± 9.17. The mean hip flexion was of 9.48° ± 3.40. Ground reaction forces showed reduced braking and propelling forces. Joint moments were reduced for flexion and adduction (0.42 Nm/kg ± 0.2 and 0.30 Nm/kg ± 0.11, respectively) but the abduction moment was increased (0.42 Nm/kg ± 0.18). Conclusions The present study showed that osteonecrosis of the femoral head presents compensatory gait mechanisms, with increased pelvic motion and decreased knee flexion to protect the hip joint. Decreased moments for hip flexion and adduction were also identified and muscle weakness for those groups may be correlated to the disease.
Resumo Objetivos Embora a osteonecrose da cabeça do fêmur seja uma lesão prevalente, seus efeitos sobre os parâmetros da marcha não foram minuciosamente estudados e não estão bem estabelecidos na literatura atual. O objetivo principal do presente estudo é descrever a marcha em pacientes com osteonecrose. Métodos Trata-se de um estudo transversal. Nove pacientes com diagnóstico de osteonecrose da cabeça do fêmur, sob acompanhamento regular em ambulatório, foram selecionados para o presente estudo e submetidos à análise da marcha com Vicon Motion Capture Systems. Os dados espaciais e temporais foram obtidos e os ângulos articulares foram calculados com o sistema de coordenadas angulares de Euler. Sistemas de coordenadas distais e plataformas de força foram utilizados para o cálculo de momentos articulares e de forças de reação ao solo, respectivamente. Resultados Os pacientes com osteonecrose apresentaram menor velocidade (0,54 m/s ± 0,19) e menor cadência (83,01 passos/minuto ± 13,23) do que pacientes saudáveis. As amplitudes de movimento de obliquidade e rotação pélvica foram de 10,12°± 3,03 e 18,23° ± 9,17, respectivamente. A média de flexão do quadril foi de 9,48° ± 3,40. O estudo das forças de reação ao solo revelou redução das forças de frenagem e propulsão. Os momentos articulares de flexão e adução caíram (0,42 Nm/kg ± 0,2 e 0,30 Nm/kg ± 0,11), mas o momento de abdução aumentou (0,42 Nm/kg ± 0,18). Conclusões O presente estudo mostrou que a osteonecrose da cabeça do fêmur é associada a mecanismos compensatórios da marcha, com aumento da movimentação pélvica e diminuição da flexão do joelho para proteção da articulação do quadril. A redução dos momentos de flexão e adução do quadril também foi identificada e a fraqueza destes grupos musculares pode estar correlacionada à doença.
Subject(s)
Humans , Biomechanical Phenomena , Arthroplasty, Replacement, Hip , Femur Head Necrosis , Gait AnalysisABSTRACT
PURPOSE@#Robot-assisted technology is a forefront of surgical innovation that improves the accuracy of total knee arthroplasty (TKA). But whether the accuracy of surgery can improve the clinical efficacy still needs further research. The purpose of this study is to perform three-dimensional (3D) analysis in the early postoperative period of patients who received robot-assisted total knee arthroplasty (RATKA), and to study the trend of changes in gait parameters after RATKA and the correlation with the early clinical efficacy.@*METHODS@#Patients who received RATKA in the Center of Joint Surgery, the First Hospital Affiliated to Army Military Medical University from October 2020 to January 2021 were included. The imaging parameters, i.e., hip-knee-ankle angle, lateral distal femoral angle, medial proximal tibial angle, posterior condylar angle were measured 3 months post-TKA. The 3D gait analysis and clinical efficacy by Western Ontario Mac Master University Index (WOMAC) score were performed pre-TKA, 3 and 6 months post-TKA. The differences in spatiotemporal parameters of gait, kinetic parameters, and kinematic parameters of the operated limb and the contralateral limb were compared. The correlation between gait parameters and WOMAC scores was analyzed. Paired sample t-test and Wilcoxon rank-sum test were used to analyze the difference between groups, and Spearman correlation coefficient was used to analyze the correlation.@*RESULTS@#There were 31 patients included in this study, and the imaging indexes showed that all of them returned to normal post-TKA. The WOMAC score at 3 months post-TKA was significantly lower than that pre-TKA, and there was no significant difference between at 3 and 6 months. The 3D gait analysis results showed that the double support time of the operated limb reduced at 3 and 6 months (all p < 0.05), the maximum extension and maximum external rotation of the knee joint increased at stance phase, and the maximum flexion angle, the range of motion and the maximum external rotation increased at swing phase. Compared with the preoperative data, there were significant improvements (all p < 0.05). Compared with the contralateral knee joint, the maximum external rotation of the knee joint at swing phase was smaller than that of the contralateral side, and the maximum flexion and extension moment was greater than that of the contralateral knee. The maximum external rotation moment of the joint was greater than that of the contralateral knee joint (p < 0.05). There was a negative correlation between the single support time pre-TKA and the WOMAC score at 3 months (p = 0.017), and the single support time at 3 months was negatively correlated with the WOMAC score at 6 months (p = 0.043). The cadence at 6 months was negatively correlated with the WOMAC score at 6 months (p = 0.031). The maximum knee extension at stance phase at 6 months was negatively correlated with the WOMAC score at 6 month (p = 0.048). The maximum external rotation at stance phase at 6 months was negatively correlated with the WOMAC score at 6 months (p = 0.024).@*CONCLUSION@#The 3D gait analysis of RATKA patients is more sensitive than WOMAC score in evaluating the clinical efficacy. Trend of changes in gait parameters shows that the knee joint support, flexion and extension function, range of motion, external rotation and varus deformity moment of the patient were significantly improved at 3 months after surgery, and continued to 6 months after surgery. Compared with the contralateral knee, the gait parameters of the operated limb still has significant gaps in functionality, such as the external rotation and flexion and extension. The single support time, cadence, knee extension, and knee external rotation of the operated limb have a greater correlation with the postoperative WOMAC score. Postoperative rehabilitation exercises should be emphasized, which is of great value for improving the early efficacy of RATKA.
Subject(s)
Humans , Arthroplasty, Replacement, Knee , Gait Analysis , Robotics , Osteoarthritis, Knee/surgery , Knee Joint/surgery , Treatment Outcome , Range of Motion, Articular , Biomechanical PhenomenaABSTRACT
OBJECTIVE@#To investigate the changes of knee joint kinematics after anterior cruciate ligament (ACL) reconstruction assisted by personalized femoral positioner based on the apex of deep cartilage (ADC).@*METHODS@#Between January 2021 and January 2022, a total of 40 patients with initial ACL rupture who met the selection criteria were randomly divided into the study group (using the personalized femoral positioner based on ADC design to assist ACL reconstruction) and the control group (not using the personalized femoral positioner to assist ACL reconstruction), with 20 patients in each group. Another 20 volunteers with normal knee were collected as a healthy group. There was no significant difference in gender, age, body mass index, and affected side between groups ( P>0.05). Gait analysis was performed at 3, 6, and 12 months after operation using Opti _ Knee three-dimensional knee joint motion measurement and analysis system, and the 6 degrees of freedom (flexion and extension angle, varus and valgus angle, internal and external rotation angle, anteroposterior displacement, superior and inferior displacement, internal and external displacement) and motion cycle (maximum step length, minimum step length, and step frequency) of the knee joint were recorded. The patients' data was compared to the data of healthy group.@*RESULTS@#In the healthy group, the flexion and extension angle was (57.80±3.45)°, the varus and valgus angle was (10.54±1.05)°, the internal and external rotation angle was (13.02±1.66)°, and the anteroposterior displacement was (1.44±0.39) cm, the superior and inferior displacement was (0.86±0.20) cm, and the internal and external displacement was (1.38±0.39) cm. The maximum step length was (51.24±1.29) cm, the minimum step length was (45.69±2.28) cm, and the step frequency was (12.45±0.47) step/minute. Compared with the healthy group, the flexion and extension angles and internal and external rotation angles of the patients in the study group and the control group decreased at 3 months after operation, and the flexion and extension angles of the patients in the control group decreased at 6 months after operation, and the differences were significant ( P<0.05); there was no significant difference in the other time points and other indicators when compared with healthy group ( P>0.05). In the study group, the flexion and extension angles and internal and external rotation angles at 6 and 12 months after operation were significantly greater than those at 3 months after operation ( P<0.05), while there was no significant difference in the other indicators at other time points ( P>0.05). There was a significant difference in flexion and extension angle between the study group and the control group at 6 months after operation ( P<0.05), but there was no significant difference of the indicators between the two groups at other time points ( P>0.05).@*CONCLUSION@#Compared with conventional surgery, ACL reconstruction assisted by personalized femoral positioner based on ADC design can help patients achieve more satisfactory early postoperative kinematic results, and three-dimensional kinematic analysis can more objectively and dynamically evaluate the postoperative recovery of knee joint.
Subject(s)
Humans , Biomechanical Phenomena , Knee Joint/surgery , Femur/surgery , Anterior Cruciate Ligament Injuries/surgery , Range of Motion, Articular , Cartilage/surgery , Anterior Cruciate Ligament Reconstruction/methodsABSTRACT
Objective:To explore the effect of hip arthroscopy on improving the cross-sectional kinematics of the lower limbs in patients with femoral acetabular impingement (FAI).Methods:Eight FAI patients who underwent hip arthroscopy in the Department of Sports Medicine of Peking University Third Hospital from October 2021 to February 2022 were prospectively included, including 3 males and 5 females, with an age of 35.3±13.0 years (range 17-53 years), height of 168.0±12.8 cm (range 154-192 cm), weight of 61.1±8.5 kg (range 52-74 kg) and body mass index of 21.7±2.6 kg/m 2 (range 17.6-24.5 kg/m 2). There were 3 left hips and 5 right hips. FADIR (flexion, adduction and internal rotation test) was positive in all patients and FABER (flexion, abduction and external rotation test) was positive in 4 patients. Modified Harris hip score (mHHS) and visual analogue scale (VAS) of the affected hip joint were compared before the surgery and at the follow-up of 10 months. By using a markerless motion capture system, foot progression angles during normal gait, double-leg squat, forward lunge, single-leg standing and stepping in place were measured and compared before the surgery and at the follow-up of 10 months postoperative results. Results:All the 8 patients underwent the surgery successfully and were followed up for 11.0±1.2 months. The mHHS scores before the surgery and at the follow-up of 10 months were 60.9±20.5 vs. 82.9±7.3 with significant difference ( t=-3.07, P=0.018). The iHOT-12 scores before the surgery and at the follow-up of 10 months for the affected hips were 51.4±23.7 vs. 79.2±14.6 with significant difference ( t=-3.76, P=0.007). The VAS scores before the surgery and at the follow-up of 10 months were 4.6±2.3 vs. 1.5±0.9 with significant difference ( t=3.16, P=0.016). There was no significant difference in foot progression angle between the healthy side and the affected side for all movement trials before the surgery and at the follow-up of 10 months ( P>0.05). During normal gait, the postoperative and preoperative foot progression angles for the healthy side and the affected side were 26.52°±5.97 vs. 34.4°±7.20° and 24.41°±3.70° vs. 30.80°±6.43°with significant reduction ( t=2.83, P=0.013; t=3.05, P=0.041). While there was no significant difference in foot progression angles for double-leg squat, forward lunge, single-leg standing and stepping in place before the surgery and at the follow-up of 10 months ( P>0.05). Conclusion:Hip arthroscopy can change the cross-sectional kinematic characteristics of the lower limbs, potentially improving the progression angle in FAI patients.
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Objective:To explore the therapeutic effect on transposition of peroneal longus tendon in reconstruction of long segment defects of chronic Achilles tendon.Methods:From November 2013 to November 2018, 17 patients with long segment defects of chronic Achilles tendon(greater than 5.0 cm of defect) were admitted in the Department of Trauma and Micro-orthopaedics of Zhongnan Hospital of Wuhan University. The patients were 14 males and 3 females, aged 19-55 years old, with an average of 34.7 years old. Eleven patients had defects on left Achilles tendon and 6 on the right. The chronic defects lasted over 1-12 months with an average of 3.8 months. The broken ends of the Achilles tendon located at 0-5.0 cm from the insertion point. The defects were at 5.0-9.0 cm in length, after debridement of the broken ends. After thoroughly debridement of the scar tissue over the broken end of an Achilles tendon, an autologous peroneal tendon transposition was performed for reconstruction of an Achilles tendon. Postoperative follow-ups were conducted to observe wound healing and complications. Arner Lindholm score was employed to evaluate the therapeutic efficacy before surgery and at the final follow-up. Ankle-hindfoot score of American Orthopedic Foot and Ankle Society(AOFAS) and Achilles Tendon Total Rupture Score(ATRS) were used to evaluate functional recovery. At the final follow-up, heel raise of single affected foot and the maximum circumference of both calves were observed, gait analyses for plantar stress assessment as well as review of ankle CT and MRI scans were conducted for assessment of therapeutic efficacy. Using t test in SPSS 22.0 software to compare preoperative and postoperative AOFAS and ATRS scores, P<0.05 indicates a statistically significant difference. Results:Wounds healed in one stage, except 1 diabetic patient who had haematoma in the wound after surgery and healed after debridement combined with VSD treatment. All the 17 patients had completed the postoperative follow-up that lasted for 24-48 months, with an average of 33 months. According to Arner Lindholm score for efficacy evaluation, 11 patients were in excellent and 6 in good. The postoperative AOFAS scores increased from 62.94 ± 6.51 before surgery to 93.71 ± 6.15 after the surgery. ATRS increased from 29.00 ± 3.54 before surgery to 92.29 ± 3.02 after the surgery, and the score difference between before and after surgery was staistically significant ( P<0.05). No patient experienced a complication such as Achilles tendon rupture, wound infection or nerve injury. During follow-up, ankle functions recovered well, valgus was found powerful as well as heel raise on single foot. The circumference of the affected calf was smaller than that of the healthy side by no more than 1.5 cm. Gait analysis showed balanced distribution of plantar stress. No corpus callosum formation was found in both of the affected and the healthy feet. No obvious sign of osteoarthritis of ankle showed review in CT scans. Ankle MRI scans showed good continuity of the reconstructed Achilles tendons, which become significantly thicker after the surgery. Conclusion:The transposition of the long peroneal tendon is a relatively simple and effective surgical technique for reconstruction of a chronic Achilles tendon rupture or defect in a longer length or a rupture at the insertion point.
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Posterior tibial slope angle (PTSA) is a risk factor for anterior cruciate ligament (ACL) injury and has attracted a lot of attention, but its mechanism of action and diagnosis are still not systematically studied in the field of sports medicine. In this paper, we believe that PTSA should be measured by full-length lower extremity films and combined with multiple imaging data for comprehensive assessment to reduce errors. A large PTSA may increases risk of anterior cruciate ligament injury, so patients with more than 12 degrees of PTSA should be treated by preserving meniscus as much as possible during ACL reconstruction and combining with tibial osteotomy if necessary, which could effectively prevent risk of ligament re-injury. At the same time, gait analysis has an important reference value for preoperative pathogenic pattern and postoperative rehabilitation function, so the author believes that it will have a guiding significance for the development of individualized rehabilitation strategy based on PTSA, in order to achieve the best treatment effect.
Subject(s)
Humans , Anterior Cruciate Ligament/surgery , Tibia/surgery , Anterior Cruciate Ligament Injuries/surgery , Lower ExtremityABSTRACT
Objective A practical and highly accurate algorithm for dynamic monitoring of plantar pressure was proposed, the magnitude of vertical ground reaction force (vGRF) during walking was measured by a capacitive insole sensor, and reliability of the prediction accuracy was verified. Methods Four healthy male subjects were require to wear capacitive insole sensors, and their fast walking and slow walking data were collected by Kistler three-dimensional (3D) force platform. The data collected by the capacitive insole sensors were pixelated, and then the processed data were fed into a residual neural network, ResNet18, to obtain high-precision vGRF. Results Compared with analysis of the data collected from Kister force platform, the normalized root mean square error (NRMSE) for fast walking and slow walking were 8.40% and 6.54%, respectively, and the Pearman correlation coefficient was larger than 0.96. Conclusions This study provides a novel algorithm for dynamic measurement of GRF in mobile scenarios, which can be used for estimation of complete GRF outside the laboratory without being constrained by the number and location of force plates. Potential application areas include gait analysis and efficient capture of pathological gaits.
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Objective:To investigate the effects of cognitive types on dual-task paradigm gait performance in patients with stroke.Method:Using a cross-sectional study design, patients with stroke were trained with single task walking and dual-task walking with four different cognitive tasks (spontaneous speech [SS], serial counting backward [SCB], word list generation (WLG), and auditory Stroop [AS]). A three-dimensional gait and motion analysis system were used to record and analyze gait data, and calculate dual-task effect (DTE) for different cognitive tasks, and compare the differences in spatiotemporal parameters and DTE of gait analysis under different states.Results:A total of 35 patients with stroke (aged 61.0±2.5 years) were included, among which 27 were males (77.1%). There were 25 patients with ischemic stroke (71.4%) and 10 patients with hemorrhagic stroke (28.6%). Compared with single task walking, patients had decreased gait speed, shorter step length on the affected side, and a larger support phase ratio of the unaffected to the affected side during SCB dual task and SS dual task (all P<0.05), and the difference was more obvious during SCB dual task ( P<0.05). Compared with single task walking, patients had a reduced swing phase ratio of the unaffected to the affected side during SCB dual task (all P<0.05). The DTEs of gait speed, step length of the affected side, and the support phase ratio of the unaffected to the affected side during SCB dual task and SS dual task were significantly greater than those during WLG dual task and AS dual task ( P<0.05). The DTEs of gait speed and step length of the affected side during SCB dual task were significantly greater than that during SS dual task (all P<0.05). The DTE of the swing phase ratio of the unaffected to the affected side during SCB dual task was significantly greater than that during other types of cognitive tasks (all P<0.05). Conclusion:Different cognitive tasks had different effects on gait performance during dual-task walking in patients with stroke, and the degree of dual-task interference was associated with specific task types.
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Objective:To evaluate the reliability and validity of the Chinese version of the Edinburgh visual gait score (EVGS-CN) for children with cerebral palsy.Methods:The EVGS-CN was established following international guidelines for translation and cross-cultural validation of health status questionnaires. Videos of 30 children with cerebral palsy were assessed independently by six raters (with different levels of experience in gait analysis) using the EVGS-CN. Inter- and intra- observer reliability were evaluated using intraclass correlation coefficients (ICCs). The correlation analysis and group comparison were used to test the technique′s criteria-related validity, convergent validity, and discriminant validity.Results:The ICC values of the 17 items in the EVGS-CN ranged from 0.20 to 0.87 for inter-observer reliability, and from 0.41 to 0.90 for intra-observer reliability. Most items showed good inter- and intra-observer reliability among experienced raters, but only a moderate level when used by inexperienced raters. The EVGS-CN results were strongly correlated with those of physician rating scale (PRS) ( r=0.77, P≤0.001) and observational gait scale (OGS) ( r=-0.85, P≤0.001), moderately correlated with the total gross motor function measure-D/E (GMFM-D/E) score ( r=-0.55, P≤0.01), and strongly correlated with 10MWT times ( r=-0.69, P≤0.001) and timed up and go (TUG) times ( r=0.60, P≤0.001). Moreover, significant differences in average EVGS score were found between different gross motor function classification system (GMFCS) levels and between affected limbs on different sides. Conclusion:The EVGS-CN demonstrates satisfactory reliability and validity in evaluating children with cerebral palsy when it is used by an experienced or inexperienced rater.