AMES Technology, Inc.

The research objective of this study is to determine whether an intervention and associated robotic device called "Assisted Movement with Enhanced Sensation (AMES) can be used to enhance balance recovery following an unexpected loss of balance by conditioning areas of the brain involved in lower-limb (LL) motor control. It is hypothesized that AMES can improve balance recovery, gait, and reduce falls in near-frail elderly people by improving LL strength, speed, and coordination.
AMES, is a medical intervention and robotic device originally developed to aid patients' recovery from injuries to the central nervous system that limit movement. Earlier published studies demonstrated a unique property of AMES, namely that it is capable of reducing sensorimotor impairment in the severely impaired, an underserved population of patients with brain and spinal cord injuries. AMES applies assisted movement, biofeedback, and sensory stimulation simultaneously and non-invasively to the upper or lower limb, the initial intent being to address impairments such as weakness, spasticity, sensory loss, and dyssynergia (i.e., co-contraction). These reductions in impairment are achieved through cortical plasticity. In the present study, the same methodology will be applied to the lower limbs of the near-frail elderly to reduce falls by training faster reaction times, stronger reactions, and more coordinated recoveries from slips and trips

The purpose of this protocol is to determine if individuals who had a stroke more than one year before entering the study and whose ankles remain substantially impaired are able to sense and move the affected leg better after 9-13 weeks of treatment with a robotic therapy device (AMES).

The procedure involves: (1) assisted hand movement by a mechanical device, (2) mechanical vibration applied to the surface of the forearm, and (3) stimulation of the brain with either transcranial magnetic stimulation (TMS) or transcortical direct current stimulation (DCS). These 3 components of the procedure are carried out simultaneously. Each subject will be evaluated pre- and post-treatment with several clinical tests of functional movement. The hypotheses of this project are that the AMES+rTMS and AMES+tDCS procedures are safe and will enable most of the stroke patients to recover finger extension.