Mumble Melody

Rebecca Kleinberger


Mumble Melody uses musically altered sensory feedback as a potential treatment for stuttering.

Several studies have shown improvement in speech fluency with delayed and pitch-altered auditory feedback.  In this project, we use sensory/auditory alterations that stimulate both the right (and left) hemispheres as a means of reducing the auditory feedback-mediated errors in basal ganglia-related motor selection     

Stuttering is a condition characterized by involuntary, periodic disturbances in speech fluency, usually via speech sound repetitions, blockages, or prolongations. A host of other secondary features also accompany the condition (e.g. tongue thrusting, eye blinking, body movements), although these are not considered “core” features. Stuttering improves when an individual’s speech is played back to him or her in an altered manner, most famously when delayed by fractions of second, but also when the frequency is shifted, when masked with white noise, and when reading in choral speech. This rather interesting phenomenon of altered feedback-induced fluency is theorized to result from a reduced ability to detect small errors in articulation that occur in stuttering, which reduces its inhibition on speech initiation and output via the feedback mechanism.

In people who stutter, there is both structural and functional evidence of atypical hemispheric lateralization of speech and language. People who stutter, when speaking fluently, tend to activate the right hemisphere a during speech tasks. The white matter integrity is disrupted on the left. This rightward shift of speech function may be compensatory (as opposed to causal). Trials comparing fluent versus non-fluent trials in people who stutter reveal the former to associated with activity in the right hemisphere and latter with the left hemisphere. In addition, white matter integrity is negatively correlated with severity of dysfluency on the left, and positively correlated on the right. The overall notion is that stuttering is associated with atypical left-sided speech mechanisms, and that this can be overcome, at least partially, when the right hemisphere is able to effectively compensate.  While most prominently explored in stuttering, the idea that left hemisphere lesions can be overcome by shifting the motor control of speech to the right is supported by other studies in post-stroke aphasia.

In this light, altered auditory feedback—a fluency-inducing intervention in stuttering—is associated with activity in right hemispheric sensory, motor, and language areas. In addition, singing—another fluency-evoking task—is known to activate right hemisphere motor areas compared with non-musical speech production.