[Purpose] This study investigated the effect of a motor dual-task balance program on
balance and gait of elderly women to suggest a more effective balance exercise method.
[Subjects] Twenty elderly Korean women who could walk independently were recruited from
the community dwelling. [Methods] The motor dual-task balance training (experimental)
group stood on an Aero-step, and performed gym ball bouncing, catching, and throwing,
while the simple task balance training (control) group merely stood on the Aero-step.
Participants performed 45 minutes of training, 2 times a week for 6 weeks. Balance (fall
index) was measured using a TETRAX. Gait variables were recorded on a GAITRite walkway at
self-determined walking speed. [Results] The fall index of the experimental group was
significantly lower than that of the control group. Step length, stride length, velocity,
and cadence of the experimental group improved significantly more than those of control
group. [Conclusions] We found that motor dual-task balance training improved balance and
walking ability more than simple balance training. Further studies should investigate
motor dual-task training with kinematic and kinetic data, and muscle activation based on
motor strategies.
This study examined the changes in pressure pain in the upper trapezius muscle, cervical range of motion, and cervical flexion-relaxation ratio after overhead work. 14 workers were recruited. Pressure pain in the upper trapezius muscle, active cervical range of motion, and cervical flexion-relaxation ratio were measured in all subjects once before and once after overhead work. The pressure-pain threshold of the left upper trapezius muscle was 8.6 ± 2.5 lb before overhead work and 7.3 ± 2.4 lb after overhead work; that of the right upper trapezius muscle was 8.8 ± 2.9 and 7.3 ± 2.8 lb, respectively, revealing a significant decrease in pressure-pain threshold with overhead work. All cervical range of motion measures decreased significantly with overhead work. The cervical flexion-relaxation ratio on the left side was 1.3 ± 0.2 before overhead work and 1.1 ± 0.2 after overhead work; the respective values for the right side were 1.4 ± 0.5 and 1.2 ± 0.3 before and after overhead work, revealing a significant decrease with overhead work. We postulate that overhead work can reduce the pressure-pain threshold in the upper trapezius muscle and cause changes in the cervical range of motion and cervical flexion-relaxation ratio.
BACKGROUND: The static posture in visual display terminal (VDT) workers results in increased forward neck flexion and increased static muscle tension in the neck and shoulder regions. However, few studies have objectively quantified the change in head posture induced shoulder pain during VDT work. OBJECTIVE: This study elucidated changes in pressure pain in the upper trapezius muscles, cervical ROM, and the cervical flexion-relaxation ratio after continuous long-term VDT work. PARTICIPANTS: Twelve young VDT workers were recruited. METHODS: The pressure pain of the upper trapezius muscles, active CROM, and cervical flexion-relaxation ratio were measured in all subjects once before and once after VDT work. RESULTS: The pressure pain threshold of the right upper trapezius muscle was 6.9 ± 1.6 lb before VDT work and 6.1 ± 1.0 lb after VDT work, revealing a significant increase with VDT work. The cervical extension, left and right lateral flexion, and left rotation measurers decreased significantly with VDT work. CONCLUSIONS: We postulate that even short-term VDT work has the potential to cause problems. It is necessary to develop a CROM self-measuring device and to monitor patients' musculoskeletal changes frequently.
[Purpose] This study investigated the effect of different gait speeds on the muscle
activities of the latissimus dorsi and gluteus maximus muscles in relation to the
posterior oblique sling system. [Subjects] We recruited 14 young adult males. [Methods] We
measured the left latissimus dorsi muscle activity and right gluteus maximus muscle
activity of all subjects while they walked on a treadmill at speeds of 1.5 km/h, 3.5 km/h
and 5.5 km/h. [Results] There was a significant increase in latissimus dorsi muscle
activity with a treadmill speed of 5.5 km/h compared with 1.5 km/h and 3.5 km/h. The
gluteus maximus muscle activity significantly increased in the order of 1.5 km/h <
3.5 km/h < 5.5 km/h. [Conclusion] The present results indicate that arm swing connected
to increasing gait speed influences the muscle activity of the lower limbs through the
posterior oblique sling system.
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