1)The purpose of this study was to assess the influence of the duration of smartphone usage on cervical and lumbar spine flexion angles and reposition error in the cervical spine. The study included 18 healthy smartphone users (7 males and 11 females). We measured the kinematics of the upper and lower cervical and lumbar spine flexion angles and the reposition error of the upper and lower cervical spine after 3 s and 300 s smartphone use in sitting. A paired t-test was used to compare the effects of the duration of smartphone usage on the kinematics of cervical and lumbar spine flexion angles and reposition error. The flexion angles of the lower cervical and lumbar spine and the reposition error in the upper and lower cervical spine were significantly increased after 300 s smartphone of use (p<.05). However, the flexion angle of the upper cervical spine was not significantly different between the 3 s and 300 s smartphone of use (p>.05). These findings suggest that prolonged use of smartphones can induce changes in cervical and lumbar spine posture and proprioception in the cervical spine.
[Purpose] The present study was performed to identify the effect of a home exercise
program on the self-reported disability index and gait parameters in patients with lumbar
spinal stenosis (LSS). [Methods] Fifteen patients with LSS were enrolled in this study and
were trained in a 4-week home exercise program (40 min/day). All patients were evaluated
with three self-reported disability indices (Oswestry Disability Index, Roland-Morris
Disability Questionnaire, and Spinal Stenosis Scale), and gait parameters were assessed
using a GAITRite system before and after the home exercise program. [Results] Patients
with LSS showed significant decreases in the self-reported questionnaire scores and pain
intensity after the home exercise program. However, the gait parameters did not
significantly change. [Conclusion] These findings suggest that home exercise programs can
improve self-reported questionnaire scores and decrease pain in patients with LSS.
BACKGROUND: Abdominal strengthening exercises are important for stroke patients; however, there is a lack of research on therapeutic exercises for increasing abdominal muscle activity in stroke patients. OBJECTIVE: We investigated the effects of non-paretic arm exercises using a tubing band on abdominal muscle activity in stroke patients. METHODS: In total, 18 hemiplegic subjects (13 males, 5 females) were recruited. All subjects performed non-paretic arm exercises involving three different shoulder movements (extension, flexion, and horizontal abduction) using an elastic tubing band. Surface electromyography (EMG) signals were recorded from the rectus abdominis (RA), external oblique (EO), and internal oblique (IO) muscles bilaterally during non-paretic arm exercises. RESULTS: EMG activities of abdominal muscles during non-paretic arm extension and horizontal abduction were increased significantly versus shoulder flexion when subjects performed the arm exercise in a seated position. Muscle activity of the EO was significantly greater in the paretic than the non-paretic side during non-paretic arm extension and horizontal abduction. CONCLUSIONS: We suggest that non-paretic arm extension and horizontal abduction exercises using an elastic tubing band may be effective in increasing abdominal muscle activity.
[Purpose] The purpose of this study was to investigate the intra-rater reliability of
measures of scapular protraction strength using a novel method. [Subjects] Forty-nine
healthy subjects participated in this study. [Methods] Subjects performed maximal
isometric scapular protraction on the left and right sides in the supine and seated
positions. During scapular protraction, resistance was applied to the olecranon, and the
strength of scapular protraction was measured using a load cell. Intra-rater reliability
was calculated as the intra-class correlation coefficient (ICC3,1). [Results]
High intra-rater reliability scores (0.97–0.98) for scapular protraction strength were
observed in the supine and seated positions. [Conclusion] These findings demonstrate that
the method described herein may provide a more reliable and convenient method to measure
scapular protraction strength than common current practice does.
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