[Purpose] The purpose of this study was to investigate the effects of scapula movement
on neck alignment and the muscles in patients with forward head posture, who has the
structural changes around the neck caused from the forward head posture, when scapular
stabilization exercise is applied. [Subjects and Methods] A sample of 30 patients with
forward head posture were recruited and participated in an intervention for 30 minutes a
day, three times per week for 4 weeks. Fifteen patients were assigned to the scapular
stabilization exercise group and the remaining 15 were assigned to the neck stabilization
exercise group. Before the intervention, the craniovertebral angle (CVA), cranial rotation
angle (CRA), and muscle activity of the muscles around the neck were measured. Four weeks
later, these 3 factors were re-measured and analyzed. [Results] Within-group changes in
CVA and CRA were observed in both groups and were statistically significant. Only the CVA
group had a statistically significant between-group differences. Within-group changes in
muscular activity were significant differences in all groups. Between groups, the lower
back trapezius and serratus anterior showed statistically significant differences.
[Conclusion] Scapular stabilization brought about improvement in posture through
activation of the neck muscles, the lower trapezius, and the serratus anterior. Therefore,
the intervention has a positive effect on neck alignment by reducing the compensatory
movements of the muscles involved in forward head posture. Structural changes are
observed.
[Purpose] Most studies on bodyblade exercise have examined changes in muscle activities
in the trunk and shoulders according to the hand position or direction while in a standing
position. The present study compared and examined the changes in muscle activities around
the shoulders and trunk according to different bodyblade lifting methods during
stabilization exercise in a quadruped position. [Subjects and Methods] The present study
was conducted on 20 healthy males. The following exercise four types were performed with
the bodyblade held by flexing the dominant arm at 180° in a quadruped position. The muscle
activity and the ratio of muscle activity were measured. [Results] The SA and IO, EO
muscles showed significant differences. Moreover, the SA/UT activity ratio showed
significant differences according to the type of exercise. The Tukey’s post hoc test
results were as follows: for the SA muscle, exercise types 4, 2 were more effective than
types 1, 3: and for the IO muscle, types 1, 2 were more effective than types 3, 4.
[Conclusion] The present study showed that type 2 scapular stabilization exercise (crossed
leg lifting with the hand raised above the head on a vertical plane) showed selective and
positive effects on trunk muscle strengthening and stabilization. In future, additional
studies are required to design effective exercise programs for pain management and
improvement of muscle activities in patients with complaints of shoulder pain due to
scapular winging.
[Purpose] The current study aimed to identify the effects of dynamic neural mobilization
on cerebral cortical activity in patients with stroke, and to present efficient
intervention methods for stroke management. [Subjects and Methods] A total of 20
hemiplegic patients diagnosed with stroke over the past 6 months were sampled, and
randomly divided into groups I (n=10) and II (n=10). Groups I and II underwent neural
mobilization and dynamic neural mobilization, respectively, on the paralyzed arm. Both
interventions were administered for 30 min, once a day, for 4 days a week, over a course
of 4 weeks. β-waves and μ-rhythms in the C3 and C4 areas of the cerebral cortex were
measured using electroencephalography, both before and after the intervention. [Results]
After the intervention, both groups showed significant changes in the β-waves and
μ-rhythms in the C3 area alone. Further, significant inter-group differences in the
β-waves and μ-rhythms were only present in the C3 area. [Conclusion] Dynamic neural
mobilization is an efficient intervention because it increases β-waves and μ-rhythms in
the cerebral cortex. Therefore, the effects of continuous intervention programs involving
dynamic neural mobilization in patients with stroke should be investigated in the
future.
TMJ(TemporoMandibular Joint) is considered as the most important articulation in human body for maintaining the balance. Thus it is one of the main treatment areas in Chiropractic. Instead of Chiropractic treatment, NOSICK, a TMJ balancing device, can be used. As there is no such device to quantify the effect of NOSICK, a system was developed to measure the effect of NOSICK. This system is composed of stereo vision, infrared lights, and infrared through filter, etc. It requires optical markers for the measurement. 8 land markers were selected from the face which will show different displacement as NOSICK is applied. 11 test subjects were measured with the system developed with and without NOSICK applied. Quantifiable displacement of markers before and after applying NOSICK was successfully measured with the system developed.
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