Robotic Assessment of Upper Limb Passive and Active Sensory Processing in Healthy Adults

Up to 70% of stroke survivors show upper limb impairments consisting of motor and/or somatosensory impairments. These impairments often persist well into the chronic stage, and may lead to significant limitations in activities of daily living and may negatively affect quality of life. It is therefore of utmost importance to accurately assess upper limb impairments. Clinical assessments exist for both motor and somatosensory function, but lack good psychometric properties. Robotic technology show promising potential and is readily available to assess motor function and proprioception. Robotic assessment for sensory processing is currently not yet available, despite being the most relevant somatosensory function. Indeed, sensory processing shows the strongest association with upper limb movement, and only shows incomplete recovery at 6 months after stroke.

Our group has recently developed a novel robotic assessment of sensory processing, using the Kinarm End-Point Lab (BKIN Technologies Ltd., Canada). This cross-sectional study is set up to collect a large amount of data from healthy controls, in order to obtain reference values for future research and to serve as control data for comparison with stroke patients. 40 younger healthy adults and 40 older healthy adults will be recruited and will undergo extensive clinical and robotic assessment of upper limb motor and somatosensory function, as well as cognitive function. This study also allows to investigate possible age-related decline in task performance, as well as investigation of the role of cognition in performance on this novel task.