Clinical Research Directory

The intervention consists of manipulating real-time auditory feedback during speech production. In our lab, such feedback perturbations can be implemented with either a stand-alone digital vocal processor (a device commonly used by singers and the music industry) or with software-based signal processing routines (see Equipment section for details). Note that the study does not investigate the efficacy of these hardware or software methods to induce behavioral change in subjects' speech. Rather, the study addresses basic experimental questions regarding the general role of auditory feedback in the central nervous system's control of articulatory speech movements.

The intervention consists of manipulating real-time visual feedback during upper limb reaching movements. In our lab, such feedback perturbations can be implemented with a virtual reality display system.

Patients who have been previously implanted with a DBS stimulator for their clinical care will be tested in two speech motor learning tasks with the stimulation ON and with the stimulation OFF. Note that (1) patients routinely turn the stimulation OFF and back ON (examples are, for some patients, to sleep, to save battery, etc), and (2) we are not in any way evaluating the stimulator itself or its clinical effectiveness but only whether or not two forms of speech motor learning (adaptation to auditory feedback perturbation and speech sequence learning) are affected differently by having the stimulation ON or OFF. implant ON/OFF prior to participation in the speech auditory-motor learning tasks and speech sequence learning tasks. This intervention can be implemented by the subject themselves as all patients have a hand- held controlled that they use to switch stimulation ON/OFF.