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Objective:To investigate the correlation of isokinetic thigh muscle asymmetry with gait asymmetry at one year after anterior cruciate ligament (ACL) reconstruction.Methods:A retrospective case series analysis was made on 25 patients treated by ACL reconstruction in Third Hospital of Peking University from January 2014 to January 2019. All the subjects were male, aged 17-47 years [(29.4±5.2)years]. Standard rehabilitation treatment procedures were conducted after surgery. The isokinetic muscle strength of the thigh was collected at one year after operation to evaluate knee extensor and flexor concentric strength at 60°/s, 180°/s and 300°/s, and knee extensor and flexor eccentric strength at 60°/s. The maximum concentric and eccentric strength of the knee extensor and flexor were analysed between the injured and intact side. The three-dimensional motion information and ground reaction force was collected during the stance phase of gait, and knee kinematic and kinetic parameters were calculated by inverse dynamics analysis, including the peak flexion moment, peak extension moment, first and second peak adduction moment, peak external and internal rotation moment, peak flexion angle, peak extension angle during the terminal stance phase, flexion angle at heel strike, peak abduction angle, and peak external rotation angle during terminal stance phase. Spearman correlation analysis was used to study the correlation between limb symmetry index (LSI) of isokinetic muscle strength and LSI of gait parameters.Results:One year after ACL reconstruction, the maximum concentric strength of the knee extensor and flexor at 60°/s, 180°/s and 300°/s and maximum eccentric strength of the knee flexor and extensor at 60°/s on the injured side were significantly lower than those on the normal side (all P<0.01). Compared with the intact side, the peak knee extension moment on the injured side was significantly lower during the stance phase of gait ( P<0.01), and the extension angle was insufficient during the terminal stance phase ( P<0.01). There were no significant differences between the injured and intact side in terms of peak flexion moment, first and second peak adduction moment, peak external and internal rotation moment, peak flexion angle, flexion angle at heel strike, peak abduction angle, and peak external rotation angle during terminal stance phase (all P>0.05). One year after ACL reconstruction, Spearman correlation analysis during gait stance phase showed that the LSI of 60°/s concentric strength of the isokinetic knee extensor was significantly related to LSI of peak internal rotation moment ( R=0.42, P<0.05), the LSI of 180°/s concentric strength of the isokinetic knee extensor was significantly related to LSI of peak flexion moment ( R=0.45, P<0.05), the LSI of 180°/s concentric strength of the isokinetic knee flexor was significantly correlated with LSI of peak flexion angle ( R=0.46, P<0.05), the LSI of 300°/s concentric strength of the isokinetic knee extensor was significantly correlated with LSI of peak knee flexion angle ( R=0.42, P<0.05), and the LSI of 60°/s eccentric strength of the isokinetic flexor was significantly correlated with LSI of peak knee flexion angle ( R=0.54, P<0.01). Conclusions:For patients following ACL reconstruction at one year postoperatively, a significant correlation of isokinetic thigh extensor strength asymmetry with peak knee flexion and rotation moment and peak knee flexion angle, and that of isokinetic thigh flexor strength asymmetry with peak knee flexion angle are observed during the stance phase of gait, which suggests that patients with ACL reconstruction still need systematic rehabilitation training one year postoperatively to improve muscle strength and motor function so as to reduce the risk of ACL reinjury and secondary injury.
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Lateral ankle avulsion fracture is a common sports injury that can lead to chronic lateral ankle instability and substantial deterioration of the joint function. Currently, problems such as misdiagnosis, inappropriate treatment, disparate outcomes and lack of standardization are usually met in the diagnosis and treatment of lateral ankle avulsion fracture. The Foot and Ankle Committee of Chinese Association of Sports Medicine Physicians thus organized a working group of experts in the field of sports medicine and ankle surgery from China to develop "An evidence-based clinical guideline for the diagnosis and treatment of lateral ankle avulsion fractures (2022 version)" in accordance with the principle of evidence-based medicine and scientificity and practicability. The guideline covered the topics of imaging diagnosis, indications and methods of non-operative and operative treatment as well as postoperative rehabilitation, in order to provide guidance for the diagnosis and treatment of lateral ankle avulsion fracture.
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@#Objective Gait analysis plays an important role in the description of the site and degree of injury in the lower limbs, and symmetry is an important indicator of gait characteristics. The aim of this study is to quantitatively describe gait information and its asymmetry in three-dimensional space, dig deeper into gait information and improve the analysis of abnormal gait characteristics.Methods The information about the change of coronal-sagittal plane angle in different parts was obtained based on the inertial gait sensor, and the gait space vector was inverted to build the movement curve and form a motion symmetry detection method based on three-dimensional space angle vector distance. The characteristics of normal subjects (control group) and the anterior cruciate ligament (ACL) rupture patients (patients group) were analyzed from July, 2017 to January, 2018, and its effectiveness was verified.Results There was a better discrimination effect in the calf, thigh and knee asymmetry, etc., between the control group and the patient group (P<0.05). The characteristics of the calf space motion vector were highest among the control group and the patient group, and the discrimination was relatively stable, and not various with gender, age, height or body mass index.Conclusion The time-coronal-sagittal vector diagrams of left and right limbs were obtained by inertial sensor and the average of the square of the Euclidean distances in space at the selected gait cycle time points was calculated in three-dimensional space, which could be used as a gait asymmetry analysis method.
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Objective To identify the differences of three-dimensional knee kinematics of unilateral anterior cruciate ligament (ACL) deficient patients with and without the meniscus injury.Methods A total of 39 subjects including unilateral isolate ACL-deficient patients (ACL group,n=13),ACL deficient patients combined with meniscus tear (ACL+M group,n=13) and healthy controls (C group,n=13) participated in this study.In the gait analysis,three-dimensional knee kinematic and kinetic parameters were collected synchronously and compared.Results The peak knee flexion angles were greater in the ACL+M group and C group compared with the ACL group (P=0.001,P=0.001),with no significant differences between the former two groups (P=0.847).Lower first peak vertical ground reaction force,peak posterior ground reaction force,sagittal plane knee excursions and peak knee extension moment were found in ACL-injured side compared with the contralateral side (P=0.001,P<0.001,P=0.006,P=0.001).Greater peak knee abduction moment was found in group ACL+M compared with both the ACL and C groups (P=0.045,P=0.014).However,no significant difference was observed between the ACL group and C group in peak knee abduction moment (P=0.616).Conclusions The altered loading in unilateral ACL deficient patients can lead to lower ground reaction force in injured knee and greater ground reaction force in the contralateral side,which may increase the risk of developing knee osteoarthritis.The greater internal knee abduction moment in ACL deficient patients combined with meniscus injury may be a risking factor for the knee osteoarthritis.
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Objective:To evaluate the change in hamstring ( H ):quadriceps ( Q ) ratio following anterior cruciate ligament ( ACL) rupture during isokinetic knee extension and flexion at 30 degrees of flexion which is important for knee dynamic function .Methods:A study was performed in 25 male com-plete unilateral ACL ruptures .Isokinetic concentric and eccentric quadriceps and hamstring muscle tests in both the deficient knees and intact knees were performed at 60°/s, respectively.At 30 degrees of flexion, the average torque of quadriceps and hamstring , Qe∶Qc ratios ( ratios of eccentric quadriceps to concentric quadriceps muscle torque ) , He∶Hc ratios ( eccentric hamstring to concentric hamstring ) , Hc∶Qc ratios ( concentric hamstring to concentric quadriceps ) , He∶Qc ratios ( eccentric hamstring to con-centric quadriceps ) , and Hc∶Qe ratios ( concentric hamstring to eccentric quadriceps ) were calculated . Wilcoxon matched-pairs signed-ranks test was used .Results:At 30 degrees of knee flexion , a significant reduction ( P<0.05) in the average torque of quadriceps was observed at concentric and eccentric 60°/s produced by the deficient-side compared with the intact side .In addition, Hc∶Qc, He∶Qc, and Qe∶Qc significantly increased on the ACL-deficient side .Conclusion:The change in H ∶Q ratio in the mode of isokinetic 60 °/s at 30 degrees of knee flexion might therefore be a new tool to objectively document muscle function in ACL-deficient knee .
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Objective To study the effects of continuous passive motion(CPM)on tissue blood oxygen saturation(StO2)in the edge of wound after anterior cruciate ligament(ACL)reconstruction in rabbits.Methods Twenty male New Zealand rabbits,aged 8 months,received an ACL reconstruction by using double semitendinous tendon autograft in the right hind leg.The rabbits were randomly divided into 2 groups postoperatively,namely Cage activity group(n=10)and CPM group(n=10),treated with cage activity and activity by rabbit knee joint continuous passive motion apparatus respectively.On the following day after operation,a near-infrared optical device and ODISseyTM Tissue Oximeter were applied to measure the changes of tissue oxygen saturation(StO2)in the edge of the wound in each cycle(with flexion of 30?-110?)and various CPM speeds(2.35?/s,3.2?/s,and 8?/s),and the optimal CPM range and speed was thus selected for analyzing the changes of StO2 in local tissues of wounds with various angles of CPM in knee joint before the operation and on the 2nd,4th,6th,8th,10th,and 14th postoperative days.Results There was a significant difference with regard to StO2 between CPM group and Cage activity group(P0.05),however,a significant difference was observed among different time points(before the operation,and 2,4,6,8,10,14 days after the operation)(P
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<p><b>OBJECTIVE</b>To investigate the effect of cartilage-derived growth factor (CDGF) on cultured rabbit chondrocytes, and the relation between CDGF, insulin-like growth factor-I (IGF-I), and proliferation and metabolism of chondrocytes.</p><p><b>METHODS</b>CDGF was extracted from chicken xiphoid in our laboratory. Chondrocytes were isolated from 3-week-old New Zealand male rabbits, and cultured in Ham's F-12 medium containing 10% fetal calf serum. The chondrocyts of second generation were treated with CDGF and/or IGF-I of different concentrations. With chloramine T method and MTT method, we compared the content of hydroxyproline in Ham's F-12 medium and observed proliferation and energy synthesis of chondrocytes.</p><p><b>RESULTS</b>CDGF and IGF-I both stimulated the proliferation and synthesis of hydroxyproline of chondrocytes dose-dependently. The optimal concentration of CDGF was 16 ng/ml and 32 ng/ml respectively, and that of IGF-I was 30 ng/ml. There was obvious synergic effect between CDGF and IGF-I.</p><p><b>CONCLUSION</b>CDGF can stimulate the proliferation and collagen synthesis of chondrocytes and has synergistic effect with IGF-I.</p>