The outcome of this study is based on the concept of the enormous potentiality that is expressed, after the elimination of myofascial and articular compensation, from the body system. 10 low vision and blind subjects aged between 35 and 50 years. The subjects performed 10 sessions (2/week) for 5 weeks. Each session consisted of a training in the gym (30 minutes) and hydrokinetic therapy (45 minutes) All the subjects at the beginning (T0) and at the end (T1) of the rehabilitation program were tested by static baropodometry and the stabilometric (Milletrix, Diagnostic support, Rome, Italy). Our results shows an increase of the total area of support surface (p0.05). The stabilometry results shows an improvement of the orthostatic balance, sway area and the ellipse area decrease respectively 15% (236,9vs201 p≤0.05) and 41% b(p≤0.05). Thus, the energy expenditure of the patient in maintaining the orthostatic position without visual afferences is lower. Rehabilitative treatment in an aquatic environment resulted effective in improving posture and balance in all patients with increased precision in the execution of the step, which implies less effort during walk, less energy consumption and better quality of life.
Visual sensory disability: rehabilitative treatment in an aquatic environment.
BELLOMO, ROSA GRAZIA;IODICE, PIERPAOLO;DI PANCRAZIO, LAURA;SAGGINI, Raoul
2012-01-01
Abstract
The outcome of this study is based on the concept of the enormous potentiality that is expressed, after the elimination of myofascial and articular compensation, from the body system. 10 low vision and blind subjects aged between 35 and 50 years. The subjects performed 10 sessions (2/week) for 5 weeks. Each session consisted of a training in the gym (30 minutes) and hydrokinetic therapy (45 minutes) All the subjects at the beginning (T0) and at the end (T1) of the rehabilitation program were tested by static baropodometry and the stabilometric (Milletrix, Diagnostic support, Rome, Italy). Our results shows an increase of the total area of support surface (p0.05). The stabilometry results shows an improvement of the orthostatic balance, sway area and the ellipse area decrease respectively 15% (236,9vs201 p≤0.05) and 41% b(p≤0.05). Thus, the energy expenditure of the patient in maintaining the orthostatic position without visual afferences is lower. Rehabilitative treatment in an aquatic environment resulted effective in improving posture and balance in all patients with increased precision in the execution of the step, which implies less effort during walk, less energy consumption and better quality of life.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.