The aim of the study was to assess the impact of a vestibular-stimulating exercise regime on postural stability in individuals with visual impairment. The study group consisted of 70 people, including 28 persons (15 female and 13 male) with visual impairment and 42 (21 female and 21 male) without visual impairment. Each individual in the group with visual impairment was medically qualified for a 3-month training program. The research methodology included medical examination, anthropometric tests, and stabilometry tests on a Biodex Balance System SD (BBS). The tests were conducted twice: once before the start of training and again after 3 months of rehabilitation. The group with visual impairment showed significantly worse postural stability results than the control group for most of the stability parameters evaluated (OSI, APSI, and MLSI). Differences were noted between the groups with and without visual impairment for dynamic tests in women and for static tests in men. After training, the two groups showed roughly similar results for the stabilometry test with eyes closed. We conclude that exercises stimulating the vestibular system with head and body movements should be recommended for individuals with visual impairments to achieve better balance retention.
Background:To evaluate the long-term impact of preterm birth on respiratory function in
female patients born preterm, we undertook spirometric examinations twice,
as they reached the age of puberty, then follow-up examinations of part of
the same cohort in adulthood. We sought evidence that preterm birth is
correlated with poorer spirometric results into adulthood.Methods:A total of 70 girls (aged 12.2 ± 1.5 years in 1997) who had been born preterm
(at 34.7 ± 1.86 weeks, none having experienced bronchopulmonary dysplasia)
took part in spriometric examinations in 1997 and again in 1998. Of those,
after a gap of 17 years, a group of 12 were successfully recontacted and
participated in the 2015 examination as adults (then aged 27.6 ± 2.6 years,
born at 34.5 ± 1.92 weeks). We compared spirometric results across the
adolescent and adult examinations, and compared the adult results with an
adult reference group.Results:The percentage values of FEV1 (forced expiratory volume in 1 s),
FVC (forced vital capacity) and MVV (maximal voluntary ventilation) showed
significant improvement between the two examinations in the early adolescent
period. In adulthood, FEV1%pred (percentage predicted forced
expiratory volume in 1 s) showed no statistically significant difference.
The mean values of both FVC and FVC%pred (percentage predicted forced vital
capacity) for the preterm-born group were lower than for the reference
group, but this was not statistically significant. The preterm-born group
showed lower values of such parameters as forced expiratory flow at 25–75%
of FVC, MEF25 (maximal expiratory flow at 25% of forced vital
capacity) and FEV1/FVC as compared with the reference group, but
again without statistical significance.Conclusions:(1) A somewhat below-norm level of respiratory parameters among preterm-born
girls entering pubescence may attest to continued negative impact on their
respiratory system.(2) A significant improvement in their spirometric results 1 year later may
indicate that pubescence helps compensate for the earlier negative effect of
preterm birth.(3) No significant differences were seen in lung function in preterm-born
adults as compared with a reference group of adults, although the
preterm-born group did exhibit lower values of all parameters studied and
more frequent obstructive disorders.
Background. The complexity of the structure and function of a living body can be affected by disorders and can cause various dysfunctions. Objective. The aim of this study was to determine compensatory mechanisms in subjects with drop foot during gait. Methods. The study evaluated 10 subjects with drop foot (DF) whose results were compared to a group of 10 healthy controls (C). Spatiotemporal, kinematic, and kinetic parameters during the gait cycle were collected using Vicon system synchronized with Kistler platforms. Results. Spatiotemporal, kinematic, and kinetic parameters were significantly different between the analysed groups. In the DF group, the subjects walked almost 47% slower and performed 60% less steps per minute compared to the C group. The main problem in the DF group was insufficient ankle dorsiflexion in the 0–10% of the gait cycle. Mean values in the groups during the first 10% of the gait cycle were as follows: DF (−10.42 ± 5.7°) and C (−2.37 ± 1.47°), which affected the substantial differences in the values of muscle torque: DF (0.2 ± 0.1 Nm/kg) and C (−0.26 ± 0.06 Nm/kg). Conclusions. Comparative analysis for joint angles and torques demonstrated that the mechanism of compensation is the most noticeable in the knee joint and less in the hip joint.
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