Abstract
Somatosensory input is known to be essential for postural control. The present study examined the effects on postural sway of sensory input delivered via transcutaneous electrical nerve stimulation (TENS) applied to the knees during stance. Electrodes from a dual-channel portable TENS unit were adhered to the skin overlying the lateral and medial aspect of both knees of 20 young healthy volunteers (mean age 24.0 years, standard deviation 4.0). Postural sway parameters were obtained during static bipedal stance with an AMTI force platform. Four stimulation conditions were tested with eyes open and with eyes closed: no TENS; TENS applied bilaterally; and TENS applied to either the right or the left knee. Participants underwent two eight-trial blocks, with each trial lasting 30 seconds. The order of conditions was randomized for each participant. Stimulation consisted of a biphasic symmetrical stimulus delivered at the sensory detection level, with a pulse duration of 200μsec and a pulse frequency of 100Hz. The application of TENS induced significant reductions in mean sway velocity and in the medio-lateral dispersion of the center of pressure, with no corresponding effect on the anterior-posterior dispersion. These findings suggest that electrical stimulation delivered at the sensory detection level to the lateral aspects of the knees may be effective in improving balance control, and that this effect may be directionally specific.
Highlights
Sensory information provided by the visual, somatosensory and vestibular systems are essential for postural control during stance
Augmentation of somatosensory input during stance is often needed, such as when stance is challenged by external interferences or when the sensory systems that sub serve postural control are affected by pathology[8,9,10,11,12]
A similar trend is noted for the effect of the transcutaneous electrical nerve stimulation (TENS) conditions on medio-lateral variability (F(3,16)=2.58, p=0.089), with their pooled effect resulting in a significant TENS-induced decrease, as compared to the No TENS condition (F(1,18)=6.81, p=0.018, partial ?2 =0.04)
Summary
Sensory information provided by the visual, somatosensory and vestibular systems are essential for postural control during stance. Augmentation of somatosensory input during stance is often needed, such as when stance is challenged by external interferences or when the sensory systems that sub serve postural control are affected by pathology[8,9,10,11,12]. The application of somatosensory input to enhance postural stability is routinely performed during clinical rehabilitation, primarily through manual contact. As manual contact is dependent on direct interaction between the person providing the input and the person in need of somatosensory enhancement, the ability to offer ongoing assistance is limited by practical constraints
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