Lecture
This lecture discusses the potential of robot-assisted sensorimotor therapy in enhancing recovery after neurological injuries, particularly strokes. The instructor highlights the importance of therapy dose in recovery, emphasizing that higher intensity rehabilitation leads to better outcomes. He shares insights from his personal experience undergoing intensive neurorehabilitation, illustrating the challenges faced in current rehabilitation practices, which often rely on complex robotic systems requiring expert supervision. The lecture presents a vision for a continuum of care that integrates robotic therapy from clinical settings to home environments, aiming to increase therapy doses while reducing the burden on therapists. The instructor introduces a haptic platform designed to train hand function through neurocognitive exercises, which adapt based on patient performance. He discusses the feasibility of unsupervised robot-assisted therapy, showcasing positive results from trials that indicate increased therapy doses and improved patient engagement. The lecture concludes with a call for further research to optimize the use of robotic systems in rehabilitation, ensuring they are accessible and effective for a broader range of patients.