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To evaluate the effects of heel-opened ankle foot orthosis (HOAFO) on hemiparetic gait after stroke, especially on external foot rotation, and to compare the effects of HOAFO with conventional plastic-AFO (pAFO) and barefoot during gait.
This cross-over observational study involved 15 hemiparetic patients with external rotation of the affected foot. All subjects were able to walk independently, regardless of their usual use of a single cane, and had a less than fair-grade in ankle dorsiflexion power. Each patient was asked to walk in three conditions with randomized sequences: 1) barefoot, 2) with a pAFO, and 3) with an HOAFO. Their gait patterns were analyzed using a motion analysis system.
Fifteen patients consisted of nine males and six females. On gait analysis, hip and foot external rotation were significantly greater in pAFO (-3.35° and -23.68°) than in barefoot and HOAFO conditions (p<0.05). Wearing an HOAFO resulted in significant decreases in hip (0.78°, p=0.04) and foot (-17.99°, p<0.01) external rotation compared with pAFO; although there was no significant difference between HOAFO and barefoot walking. Walking speed and percentage of single limb support were significantly greater for HOAFO than in barefoot walking.
HOAFO was superior to pAFO in reducing hip and foot external rotation during the stance phase in patients with post-stroke hemiparesis. HOAFO may, therefore, be useful in patients with excessive external rotation of the foot during conventional pAFO.
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To investigate the effect of gastrocnemius muscle fatigue on postural control ability in elderly people.
Twenty-four healthy elderly people participated in this study. The postural control ability of single leg standing was evaluated with Health Improvement & Management System (HIMS) posturography before and after fatiguing exercises. After evaluating initial postural control ability, the maximal voluntary contraction (MVC) of ankle plantarflexion was assessed using a surface electromyogram from the medial belly of the gastrocnemius muscle. After a 5-minute resting period, subjects began submaximal isometric ankle plantarflexion (40% MVC) until 40% of MVC was dropped below 95% for 5 seconds, or subject couldn't continue working out due to muscle fatigue. And postural control ability was assessed after fatiguing exercise. The mean deviation of center of pressure (COP), length of COP movement, occupied area of COP were measured, and analyzed by paired t-test.
Mediolateral deviation, length of COP movement, and area of COP occupied were increased after fatiguing exercise of the gastrocnemius muscle. Anteroposterior deviation and length of COP movement were also increased, but had low statistical significance.
These findings suggest that the gastrocnemius muscle fatigue affects mediolateral stability and accuracy during single leg standing in elderly people. Therefore muscle endurance training is necessary to prevent falls in elderly people.
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To investigate the changes of ankle strength and range of motion with aging and which of the ankle strength and range of motion are contributed to balance.
Sixty healthy people (24 men and 36 women) have undergone tests for ankle strength and range of motion, using Biodex System 4 Pro; a one-leg balance, including postural sway and stability index using a Balance System; in which data were collected in a self-reported Desmond fall risk questionnaire.
Participants are classified into 3 groups by age (group 1, 20-40 years; group 2, 40-65 years; group 3, over 65 years). Stability index and postural sway is significantly increased with aging. Ankle plantarflexor strength and ankle eversion range of motion is significantly decreased with aging. Pearson's correlation revealed that ankle plantarflexor strength is significantly correlated with anterior/posterior sway, and ankle eversion range of motion is significantly correlated with medial/lateral sway in the aged group (over 65 years).
Stability, ankle plantarflexor strength, and eversion range of motion is declined with aging. In addition, strength of ankle plantarflexor and eversion range of motion is significantly correlated with balance stability. Further studies are needed for programs to improve the strength of plantarflexor, and range of motion of eversion of the ankle are beneficial in improving balance, stability, and prevention of falling in the elderly.
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Focal myositis is a rare, benign inflammatory pseudotumor of the skeletal muscle of unknown etiology. In Korea, there is no case report of focal myositis, which is not combined with connective tissue disease. We present an unusual case of focal myositis with ankle contracture, involving more than two muscles. A 26-year-old man visited our clinic complaining of right ankle contracture and leg muscle pain. Physical examination revealed no muscle weakness or any other neurological abnormality. T2-weighted magnetic resonance imaging of the right leg demonstrated diffuse high signal intensity of the right gastrocnemius, flexor digitorum longus, and tibialis anterior muscles. Needle electromyography showed profuse denervation potentials with motor unit action potentials of short duration and small amplitude from the involved muscles. All these findings suggested a diagnosis of focal inflammatory myositis and the patient was put under oral prednisolone and physical therapy.
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Objective: This study was designed to evaluate the effect of stretching on decreasing spasticity of ankle plantar flexor muscles by biomechanical assessments.
Method: Twenty two ankle joints of nineteen patients with upper motor neuron lesion were included. The spasticity was assessed both clinically and biomechanically before and after stretching of ankle plantar flexor muscles by tilt table. For clinical assessment modified Ashworth scale (MAS) was used. For biomechanical assessment, ankle plantar flexor muscles were stretched isokinetically while EMG signals were recorded simultaneously and peak eccentric torque, stiffness index and stretch reflex threthold speed (SRTS) were measured.
Results: Two cases showed improvement in MAS after stretching but the others did not. SRTS of ankle plantar flexor was increased significantly while peak eccentric torque and stiffness index were unchanged.
Conclusion: Passive stretching of ankle plantar flexor muscles decreased the stretch threshold, that is a neural component of spasticity but it did not decrease the mechanical component of spasticity.
Objective: This study was performed to investigate the energy expenditure at self-selected comfortable and fast walking speeds with or without plastic ankle-foot orthosis in hemiplegic patients.
Method: Objects of this study were 10 ambulatory hemiplegic patients. To estimate oxygen consumption, we used K2 machine and measured gait speed, stride length, stride frequency, and heart rate energy expenditure index (EEI) with or without plastic ankle-foot orthosis.
Results: Stride length and gait speed of the hemiplegic patients with plastic ankle-foot orthosis significantly increased at their comfortable walking speed pattern. Oxygen consumption, oxygen cost and EEI significantly decreased in hemiplegic patients with plastic ankle-foot orthosis whether their gait speed pattern.
Conclusion: The plastic ankle-foot orthosis is useful for the hemiplegic patients to increase walking speed and to reduce energy expenditure.
Objective: The purpose of this study were to investigate the temporospatial, kinematic data and energy consumption in hemiplegic patients according to the types of ankle-foot orthosis (AFO), and to determine the most effective type of AFO for gait training.
Method: A prospective study was performed for 10 patients with hemiplegia who was able to walk independently at indoor level. The temporospatial, kinematic data and energy consumption were compared in each five different conditions: 1) barefoot, 2) donning AFO with posterior leaf spring (PLS), 3) donning PLS with the distal part of metatarsal head trimmed off (PLS-C), 4) donning hinged PLS (HPLS), 5) donning hinged PLS with the distal part of metatarsal head trimmed off (HPLS-C).
Results: With four types of PLS, maximal ankle plantar flexion was significantly decreased, however we didn't find any difference in kinematic data of the pelvis and hip as compared with barefoot and with PLS, HPLS, HPLS-C and maximal knee extension angle was significantly decreased compared with barefoot. With HPLS-C, cadence and walking speed significantly increased and double support time and oxygen cost significantly decreased as compared with barefoot.
Conclusion: This study showed increased walking speed, decreased energy cost and improved
Objective: To investigate the deficit of static and dynamic postural control in patients with chronic ankle sprain using dynamic posturography.
Method: Twenty patients with unilateral recurrent ankle sprain and functional instability were assessed by Samsung medical center ankle injury score and by computerized dynamic posturography (EquiTestⰒ system, NeurocomⰒ, international, INC; USA).
The posturography test was performed 3 times at 6 different simulated conditions such as fixed of force platform/open eyes/fixed of screen (condition 1), fixed/closed/fixed (condition 2), fixed/open/movement (condition 3), sway/open/fixed (condition 4), sway/closed/fixed (condition 5), sway/open/movement (condition 6). We evaluated anteroposterior sway of center of gravity of the patients and calculated equilibrium scores. We compared the equilibrium scores of patient group and normal data reported previously. We also compared the equilibrium scores of two subgroups of the patients according to severity of ankle injury.
Results: Patients showed significantly low equilibrium scores than normal one at the condition 4, 5 and 6 (p<0.05). The group B with severe ankle injury revealed low equilibrium scores at the condition 4, 5 and 6. Especially the group B showed statistically significance at condition 5 (p<0.05).
Conclusion: Patients with chronic ankle sprain showed the deficit of dynamic postural control due to the proprioceptive dysfunction of injured ankle than normal person.
Objective: To investigate the effects of dynamic (hinged) and solid ankle-foot orthoses (AFO) on the gait characteristics in spastic cerebral palsied children and to find out which AFO has a more beneficial effect on correcting the abnormal gait pattern in those children.
Method: The subjects were 40 children with spastic cerebral palsy (CP) who were able to walk independently without walking aids. Their ages were ranging from 2 to 12 years. Children were randomly prescribed to dynamic or to solid AFO. Twenty-four children got solid AFO and 16 children got hinged AFO. Gait characteristics were evaluated by computer based kinematic gait analysis while they were walking with AFO and on barefoot. Gait characteristics on barefoot and with hinged AFO and with solid AFO respectively were compared.
Results: Temporospatial parameters while walking on barefoot were not significantly different from those while walking with AFOs. While walking with hinged AFO, the maximal knee extension angle during stance phase was decreased in comparison with that on barefoot (p<0.05). Ankle dorsiflexion angle on hinged AFO was increased throughout the gait cycle (p<0.05). While walking with solid AFO, ankle dorsiflexion angle at initial contact, at 98% of gait cycle and at maximal ankle dorsiflexion angle in stance phase were increased in comparison with that on barefoot (p<0.05). There was no significant difference of changes after wearing orthoses between hinged and solid AFO.
Conclusion: Both types of AFOs exerted a positive effect on ankle motion, not in knee or hip joints in the children with spastic cerebral palsy. The gait characteristics during walking with both AFOs were not significantly different, even if the hinged type might be more effective in preventing knee hyperextension in stance phase and in improving maximal ankle dorsiflexion during the swing phase.
Objective: This study was designed to evaluate the relation of leg length discrepancy on ankle muscle strength.
Method: Twenty four adult women were tested (12 leg length equality and 12 leg length discrepancy). Leg length was measured by tape ruler from anterior superior iliac spine to medial malleolus, three times by three different trained examiners. The muscle strength (bilateral ankle dorsiflexors and plantarflexors) was measured by using Cybex 340 dynamometer at 30 degree/sec and 120 degree/sec.
Results: The mean value of leg length discrepancy was 0.89⁑0.24 cm. In leg length discrepancy group, the peak torque of ankle plantarflexor were 44.50⁑20.94 Nm in long leg and 51.83⁑12.75 Nm in short leg at 30 degree/sec angular velocity (p<0.05).
Conclusion: We concluded that there were significant increase in plantar flexor peak torques of short leg than those of long legs at 30 degree/sec (P<0.05). Perhaps the difference of the muscle strength might be due to compensatory mechanism of short leg in propulsion during gait.
Objective: To investigate the changes of gait patterns in hemiplegic patients with ankle foot orthosis (AFO) and with functional electrical stimulation (FES).
Method: Fifteen hemiplegic patients who can walk independently with cane participated in this study. Kinematic gait analysis was performed for all subjects using three-dimensional gait analysis system in barefoot, wearing AFO, and applying FES. The mean values of each gait trials were taken and statistically analysed by repeated measures of ANOVA.
Results: Genu recurvatum at stance phase and excessive ankle plantar flexion at stance and swing phase were decreased after wearing AFO. Excessive ankle plantar flexion at swing phase were decreased after applying FES.
Conclusion: The results showed that the FES is useful for the correction of hemiplegic gait as mush as of wearing AFO.
Objective: To determine whether ankle plantar flexors stretching exercise affects functional reach in elderly men.
Method: Twenty elderly men with an average age of 78.2 years were selected for this study. A active range of motion of ankle dorsiflexion and a functional reach (FR) distance were measured before and after ankle stretching exercise. The ankle dorsiflexion was measured by goniometer in knee extended position. The FR distance was measured in standing position. Ankle plantar flexors stretching exercises were carried out by physical therapist 4 times per week for 4 weeks. At 4 weeks after the stretching exercise, we retested the active range of motion of ankle dorsiflexion and the FR distance using the same method.
Results: At 4 weeks after the stretching exercise, the active range of motion of right ankle dorsiflexion was increased from 2.81⁑3.26o to 5.98⁑4.34o, and the left ankle dorsiflexion was increased from 3.15⁑3.77o to 6.35⁑2.45o. The FR distance was increased form 12.22⁑7.54 cm to 19.69⁑8.59 cm after the stretching exercise.
Conclusion: The FR distance was significantly increased after the ankle plantar flexors stretching exercise (p<0.01). This results suggest that the ankle plantar flexors stretching excercise may be capable of increasing the FR distance in elderly.
Objective: The purpose of this investigation was to document the isokinetic performance deficiencies of the invertor and evertor muscles of chronically sprained ankles.
Method: Eversion/Inversion testing was performed by a Cybex 6000 isokinetic dynamometer at the speeds of 60o/sec and 120o/sec on 17 subjects who had unilateral chronic ankle sprain. Values were compared between the involved and uninvolved sides.
Results: The inversion peak torque deficits between the involved and uninvolved extremities were significantly greater than eversion deficits at 60o/sec and 120o/sec. Evertor/Invertor peak torque ratios of involved sides at 60o/sec were significantly greater than uninvolved sides.
Conclusion: We conclude that chronic ankle sprains associate an ankle invertor weakness rather than an evertor weakness. Ankle invertor weakness might be resulted from a disuse atrophy and painful ankle inversion. Further prospective study is needed to determine the relationship between the invertor weakness and the chronic ankle sprain.
Objective: To investigate the changes of gait patterns in subjects who use the ankle foot orthoses (AFOs) with a variable ankle joint stop.
Method: Six young subjects without a known physical disability were involved in this study. Double upright AFOs with three kinds of ankle joint stops (eg. AFOs with 85o posterior stop, 90o posterior stop, and 95o posterior stop) were used for the right foot and a rigid shoe was used for the left foot. Gait patterns of the subjects using the AFOs with a variable ankle joint stop were evaluated with the three dimensional gait analysis system.
Results: The gait patterns of the subjects with a 85o posterior stop AFO showed a shorter duration of single support phase than the subjects with a 90o posterior stop or 95o posterior stop. They showed the increased maximal knee flexion angles, decreased knee extension angles and decreased ankle range of motions by the kinematics. These linear changes in parameters and kinematics were statistically significant. In kinetics, the gait patterns of the subjects using a AFO with 85o posterior stop had the largest maximal knee flexion moment and the gait patterns of the subjects using a AFO with 95o posterior stop had the largest maximal knee extension moment. However these results were not statistically significant.
Conclusion: For the patients with uncontrolled ankle motion, the AFOs with 90o or 95o posterior stop would be more desirable than the AFOs with 85o posterior stop, for the clearance of foot and stability of knees but not for the correction of the knee hyperextension.
Objective: Excessive external rotation of the hemiplegic foot is a common problem of hemiplegic gait. There has been a few report on etiological investigation and corrective measurement of an excessive external rotation of hemiplegic foot. Thus we present a newly designed Torque heelⰒ to correct the external rotation of hemiplegic foot.
Method: Ten hemiparetic patients with an excessive external rotation of affected foot participated in this study. All of the participants were able to walk at least 10 meters with metal a ankle foot orthosis (AFO) using a single cane. Each of these patients was placed on four tries of walk: (1) on a bare foot; (2) with an AFO; (3) with an AFO and a quarter inch of lateral wedge; and (4) with an AFO and the Torque heelⰒ. Gait patterns were analysed by the Vicon 370, three dimensional motion analyser.
Results: The speed and stride length increased in all tries except for the bare foot walk. Those who walked with the assistive devices showed no difference in the speed and stride length. All the participants showed an increased in external rotation of pelvis and ankle. Those who walked with an AFO and Torque heelⰒ presented a decrease in the external rotation of foot and pelvis. The hip and ankle motions of the hemiplegic limbs were not affected with the AFO and Torque heelⰒ. A significant degree of correction in pelvic rotation with an AFO and Torque heelⰒ was noted.
Conclusions: This study indicates that an AFO with Torque heelⰒ is beneficial to the correction of external rotation of a hemiplegic foot. And the excessive external rotation of hemiplegic foot may be due possibly to the external rotation of pelvis.
Hemiplegic gait is characterized by slow and poorly coordinated movements of the affected limb resulting from foot drop or equinus deformities. Ankle-foot orthoses(AFO) are frequently prescribed to improve the gait pattern of hemiplegics. Plastic AFO with different trimlines in controlling ankle motion can cause variable biomechanical effects.
In this study, we analysed the biomechanical effect of donning AFO on hemiplegic gait and assessed whether any differences resulted when the AFO was modified. Gait events, plantar pressure, foot contact and centers of pressure(COP) parameters were measured with F-scan pressure sensitive insole system in 21 hemiplegic stroke patients with Brunnstrom's lower extremity stage 3. And those parameters were compaired in each of four different conditions: 1) before donning AFO, 2) donning AFO without any modification, 3) donning AFO with the distal part of metatarsal head trimmed off, 4) donning AFO with third condition and weaning a cushioned heel shoes.
After donning AFO, total contact area and contact width were increased, and initial contact COP and mean COP were displaced medially. But contact length was not changed and initial contact COP and mean COP were not displaced anteroposteriorly. Anteroposterior displacement of COP, slope and velocity of COP were not also changed after donning AFO. Among various AFO adjustments, there were no significant changes of plantar pressure, foot contact and COP parameters.
The results suggest that 1) AFO provides mediolateral stability, but does not provide additional functional rocker actions during stance phase and 2) There were no definite different biomechanical actions among various adjustments of plastic AFO in hemiplegic gait of Brunnstrom's lower extremity stage 3.
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