The balance of the body in the elderly is disturbed for various reasons and relatively often. The aim of our research was to analyze the effect of five simple physiotherapeutic procedures on the reaction speed as well as static and dynamic balance in the elderly. 60 people (women and men diagnosed with degenerative changes of the spine, chronic period of the disease) aged 65-95 years were analyzed. Patients were randomly assigned to the study group (30 people - participating in the three-week physiotherapy program) and the control group (30 people - not participating in the program). The test consisted in checking the state of static (postural stability) and dynamic (risk of falls) balance on the Biodex SD dynamic platform and the assessment of speed in the Timed Up-and-Go (TUG) test. The results of our research showed that five simple physiotherapy treatments can significantly improve the reaction speed and the dynamic and static balance in the sagittal plane in the elderly.
The balance of the human body is the result of a properly developed musculoskeletal system, an efficiently functioning nervous system and labyrinth, organs of deep feeling, and the organ of vision. The speed of reaction is an important factor in maintaining the body's balance and reduces the risk of falls, not only in the elderly. The aim of the study is to analyze the influence of uncomplicated physiotherapeutic procedures on the reaction speed as well as static and dynamic balance in the elderly. 60 people (degenerative changes of the spine) in the chronic period of the disease were analyzed. Age of respondents: 65-95 years, women and men. Patients were randomly assigned to the study group (30 people - participating in the three-week physiotherapy program) and the control group (30 people - not participating in the program). The test consisted in checking the state of static (postural stability) and dynamic (risk of falls) balance on the Biodex SD dynamic platform. Additionally, each patient participated in the Timed Up-and-Go (TUG) test. In the study group, most of the studied variables, analyzed before and after rehabilitation, differed significantly (frontal plane inclinations p = 0.024; QuadsL p = 0.002; TUG p = 0.022). Significant differences were also noted between the groups after the end of the therapy (QuadsL 1 p = 0.015; PostL p = 0.011). Moreover, the correlation between TUG and anterior and lateral (p = 0.032) was confirmed. Conclusions: The use of simple physiotherapeutic procedures significantly improves the reaction speed as well as dynamic and static balance in the sagittal plane in the elderly. Improvement in sagittal static stability and deterioration in the coronal plane contribute to a reduction in TUG time.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
60
As part of the rehabilitation program, the patients performed two exercises in the Universal Therapeutic Rehabilitation Room (UTRR) system. The patient's task was to perform simultaneous abduction and adduction of the upper and lower limbs. The duration of the procedure was 10 minutes, the patient performed the exercises at a comfortable pace. In the second exercise - the patient's task was to alternately bend and straighten the opposite lower and upper limbs. The duration of the exercise was 10 minutes. The combined duration of both procedures used was 20 minutes. In addition, each patient underwent three physical therapy treatments. The procedures were carried out 5 days a week (Monday to Friday) for three weeks.
Postural stability - static balance on Biodex SD dynamic platform.
Postural stability was investigated by forward deflections in the sagittal plane.
Time frame: Before therapy
Postural stability - static balance on Biodex SD dynamic platform.
Postural stability was investigated by backward deflections in the sagittal plane.
Time frame: Before therapy
Postural stability - static balance on Biodex SD dynamic platform.
Postural stability was investigated sideways, in the frontal plane.
Time frame: Before therapy
Postural stability - static balance on Biodex SD dynamic platform.
Postural stability was investigated by inward deflections in the frontal plane.
Time frame: Before therapy
Risk of falls - dynamic balance on Biodex SD dynamic platform.
The evaluation of the dynamic equilibrium was carried out by measuring the mean deviations of the center of gravity of the subject (overall) on an unstable substrate, the lability of which varied with time, from a more stable state to unstable ground. The Biodex SD platform has a twelve-point instability scale, where level 12 corresponds to a rigid and stable setting and level 1 to a hypermobility setting. For the purposes of the study, levels from 8 to 4 were used.
Time frame: Before therapy
Speed of reaction as measured by the functional Timed Up and Go (TUG) test.
The task of the subject during the test was, on the command "start" given by the examiner, to perform the following activities as soon as possible: get up from the chair, walk three meters straight, go around the cone, return the same way to the place, and sit on the chair again. The investigator measured the time of all performed motor tasks from giving the command and starting them until returning to the chair.
Time frame: Before therapy
Postural stability - static balance on Biodex SD dynamic platform.
Percent of the time spent by the center of body mass in individual quadrants of the platform.
Time frame: Before therapy
Postural stability - static balance on Biodex SD dynamic platform.
Postural stability was investigated by forward deflections in the sagittal plane.
Time frame: After 3 weeks of therapy
Postural stability- static balance on Biodex SD dynamic platform
Postural stability was investigated by backward deflection in the sagittal plane
Time frame: 3 weeks after therapy
Postural stability - static balance on Biodex SD dynamic platform.
Postural stability was investigated sideways, in the frontal plane.
Time frame: 3 weeks after therapy
Postural stability - static balance on Biodex SD dynamic platform.
Postural stability was investigated by inward deflections in the frontal plane.
Time frame: 3 weeks after therapy
Risk of falls - dynamic balance on Biodex SD dynamic platform.
The evaluation of the dynamic equilibrium was carried out by measuring the mean deviations of the center of gravity of the subject (overall) on an unstable substrate, the lability of which varied with time, from a more stable state to an unstable ground. The Biodex SD platform has a twelve-point instability scale, where level 12 corresponds to a rigid and stable setting and level 1 to a hypermobility setting. For the purposes of the study, levels from 8 to 4 were used.
Time frame: 3 weeks after therapy
Speed of reaction as measured by the functional Timed Up and Go (TUG) test.
The task of the subject during the test was, on the command "start" given by the examiner, to perform the following activities as soon as possible: get up from the chair, walk three meters straight, go around the cone, return the same way to the place, and sit on the chair again. The investigator measured the time of all performed motor tasks from giving the command and starting them until returning to the chair.
Time frame: 3 weeks after therapy
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Postural stability - static balance on Biodex SD dynamic platform.
Percent of the time spent by the center of body mass in individual quadrants of the platform.
Time frame: 3 weeks after therapy