Influence of optic flow on postural control

The study of optic flow on postural control may explain how self-motion perception contributes to postural stability in young males and females and how such function changes in the old falls risk population. Study I: The aim was to examine the optic flow effect on postural control in young people (n=24), using stabilometry and surface-electromyography. Subjects viewed expansion and contraction optic flow stimuli which were presented full field, in the foveral or in the peripheral visual field. Results showed that optic flow stimulation causes an asymmetry in postural balance and a different lateralization of postural control in men and women. Gender differences evoked by optic flow were found both in the muscle activity and in the prevalent direction of oscillation. The COP spatial variability was reduced during the view of peripheral stimuli which evoked a clustered prevalent direction of oscillation, while foveal and random stimuli induced non-distributed directions. Study II was aimed at investigating the age-related mechanisms of postural stability during the view of optic flow stimuli in young (n=17) and old (n=19) people, using stabilometry and kinematic. Results showed that old people showed a greater effort to maintain posture during the view of optic flow stimuli than the young. Elderly seems to use the head stabilization on trunk strategy. Visual stimuli evoke an excitatory input on postural muscles, but the stimulus structure produces different postural effects. Peripheral optic flow stabilizes postural sway, while random and foveal stimuli provoke larger sway variability similar to those evoked in baseline. Postural control uses different mechanisms within each leg to produce the appropriate postural response to interact with extrapersonal environment. Ageing reduce the effortlessness to stabilize posture during optic flow, suggesting a neuronal processing decline associated with difficulty integrating multi-sensory information of self-motion perception and increasing risk of falls.

Postural proteinuria associated with left renal vein entrapment: a follow-up evaluation

Imaging studies show entrapment of the left renal vein in the fork between the aorta and proximal superior mesenteric artery in most cases of isolated postural proteinuria. Therefore, it has been postulated that partial obstruction to the flow in the left renal vein in the upright position is a cause of this form of proteinuria. In a girl with isolated postural proteinuria, kidney ultrasonic imaging and Doppler flow scanning showed left renal vein entrapment. Seven years later, a new evaluation showed resolution of both postural proteinuria and left renal vein entrapment. The longitudinal observation provides substantial additional support for entrapment of the left renal vein by the aorta and superior mesenteric artery as a cause of isolated postural proteinuria.

Postural effects on interstitial fluid pressure in humans

BACKGROUND: Direct assessment of the effect of postural changes on interstitial fluid pressure (IFP) in the human skin under physiological conditions is important for the understanding of mechanisms involved in diseases resulting in lower limb edema. Previous techniques to measure IFP had limitations of being invasive, and acute measurements were not possible. Here we describe the effect of postural changes on IFP in the skin of the foot using the minimally invasive servonulling technique. RESULTS: Measurements were performed in 12 healthy subjects. IFP (means +/- SD) was significantly higher in the sitting (5.1 +/- 2.9 mm Hg) than in the supine position (-0.3 +/- 3.6 mm Hg, p = 0.04) when measured in the sitting position first. The difference between the sitting and the supine position was not significant when measurements were taken in the supine position first [from 1.0 +/- 4.3 (supine) to 3.6 +/- 6.7 mm Hg (sitting), p = 0.46]. Spontaneous low-frequency pressure fluctuations occurred in 58% of the recordings during sitting, which was almost twice as frequent as in the supine position (33%; p = 0.001), while no effects on lymphatic capillary network extension were observed (p = 0.12). CONCLUSION: Using the servonulling micropressure system, postural effects on IFP can be directly assessed. IFP is higher in the sitting position, but differences are influenced by the time in the upright position.

Left renal vein entrapment: a frequent feature in children with postural proteinuria

In most Asian subjects with postural proteinuria, ultrasonic imaging and Doppler flow scanning disclose entrapment of the left renal vein in the fork between the aorta and the superior mesenteric artery. Little information is available on the possible occurrence of left venal rein entrapment in European subjects with postural proteinuria. Renal ultrasound with Doppler flow imaging was therefore performed on 24 Italian or Swiss patients with postural proteinuria (14 girls and ten boys, aged between 5.2 years and 16 years). Signs of aorto-mesenteric left renal vein entrapment were noted in 18 of the 24 subjects. In conclusion, aorto-mesenteric left renal vein entrapment is common also among European subjects with postural proteinuria.

A randomised double-blind, cross-over trial of 4-aminopyridine for downbeat nystagmus--effects on slowphase eye velocity, postural stability, locomotion and symptoms

Objective The effects of 4-aminopyridine (4-AP) on downbeat nystagmus (DBN) were analysed in terms of slow-phase velocity (SPV), stance, locomotion, visual acuity (VA), patient satisfaction and side effects using standardised questionnaires. Methods Twenty-seven patients with DBN received 5 mg 4-AP four times a day or placebo for 3 days and 10 mg 4-AP four times a day or placebo for 4 days. Recordings were done before the first, 60 min after the first and 60 min after the last drug administration. Results SPV decreased from 2.42 deg/s at baseline to 1.38 deg/s with 5 mg 4-AP and to 2.03 deg/s with 10 mg 4-AP (p<0.05; post hoc: 5 mg 4-AP: p=0.04). The rate of responders was 57%. Increasing age correlated with a 4-AP-related decrease in SPV (p<0.05). Patients improved in the ‘get-up-and-go test’ with 4-AP (p<0.001; post hoc: 5 mg: p=0.025; 10 mg: p<0.001). Tandem-walk time (both p<0.01) and tandem-walk error (4-AP: p=0.054; placebo: p=0.059) improved under 4-AP and placebo. Posturography showed that some patients improved with the 5 mg 4-AP dose, particularly older patients. Near VA increased from 0.59 at baseline to 0.66 with 5 mg 4-AP (p<0.05). Patients with idiopathic DBN had the greatest benefit from 4-AP. There were no differences between 4-AP and placebo regarding patient satisfaction and side effects. Conclusions 4-AP reduced SPV of DBN, improved near VA and some locomotor parameters. 4-AP is a useful medication for DBN syndrome, older patients in particular benefit from the effects of 5 mg 4-AP on nystagmus and postural stability.

Stochastic Resonance Whole-Body Vibration Improves Postural Control in Health Care Professionals: A Worksite Randomized Controlled Trial

Slip, trip, and fall injuries are frequent among health care workers. Stochastic resonance whole-body vibration training was tested to improve postural control. Participants included 124 employees of a Swiss university hospital. The randomized controlled trial included an experimental group given 8 weeks of training and a control group with no intervention. In both groups, postural control was assessed as mediolateral sway on a force plate before and after the 8-week trial. Mediolateral sway was significantly decreased by stochastic resonance whole-body vibration training in the experimental group but not in the control group that received no training (p < .05). Stochastic resonance whole-body vibration training is an option in the primary prevention of balance-related injury at work.

Importancia del control postural para las A.V.D. en personas con secuelas neurológicas

El ser humano tiene la necesidad de adaptarse a la actividad que se propone, a sus propios desajustes por el movimiento y a los cambios internos. Todo en un entorno determinado y para que ocurra, el cuerpo debe estar preparado para anticiparse, mantenerse y reaccionar ante estas situaciones. Las personas con secuelas neurológicas tienen dificultades para mantenerse en una posición estática y más aún en poder pasar de una postura a otra. No solamente tienen problemas para tomar objetos o levantarse de una silla; por ejemplo, sino que presentan serios inconvenientes para mantener el equilibrio y controlar la postura para poder alcanzar cualquiera de las maniobras referidas anteriormente; de lo que se desprende, que el desarrollo de un buen control postural es requisito indispensable para cualquier manejo de las actividades de la vida diaria (A.V.D.). Y la atención, entendida como uno de los procesos cognitivos que hay que activar para que todo esto suceda, juega un papel importante en éste reaprendizaje motriz. Todas estas habilidades motoras necesitan aprenderse y luego llevarlas al plano de la automatización con un mínimo de dirección consciente. La corteza cerebral necesita relajarse y ocuparse de las estrategias y no tanto ya de la postural, al menos que se requiera una corrección

Postural observación : los padres y los niños la percepción de su propia postura en la edad puberal. Encuesta en la escuela secundaria

El objetivo del presente estudio fue investigar los efectos de la percepción de competencia deportiva de desarrollar una investigación experimental en la escuela (Bunnell, WP., 1984) a fin de observar cómo pueden existir relaciones entre la auto-descripción de la postura, la postura vista por los padres y una observación postural objetiva

Importancia del control postural para las A.V.D. en personas con secuelas neurológicas

El ser humano tiene la necesidad de adaptarse a la actividad que se propone, a sus propios desajustes por el movimiento y a los cambios internos. Todo en un entorno determinado y para que ocurra, el cuerpo debe estar preparado para anticiparse, mantenerse y reaccionar ante estas situaciones. Las personas con secuelas neurológicas tienen dificultades para mantenerse en una posición estática y más aún en poder pasar de una postura a otra. No solamente tienen problemas para tomar objetos o levantarse de una silla; por ejemplo, sino que presentan serios inconvenientes para mantener el equilibrio y controlar la postura para poder alcanzar cualquiera de las maniobras referidas anteriormente; de lo que se desprende, que el desarrollo de un buen control postural es requisito indispensable para cualquier manejo de las actividades de la vida diaria (A.V.D.). Y la atención, entendida como uno de los procesos cognitivos que hay que activar para que todo esto suceda, juega un papel importante en éste reaprendizaje motriz. Todas estas habilidades motoras necesitan aprenderse y luego llevarlas al plano de la automatización con un mínimo de dirección consciente. La corteza cerebral necesita relajarse y ocuparse de las estrategias y no tanto ya de la postural, al menos que se requiera una corrección