Phasic and repetitive self-touch differ in hemodynamic response in the prefrontal cortex-An fNIRS study

Each individual touches the own body several 100 times a day. While some researchers propose a self-regulatory function of self-touch, others report that self-touching increases nervousness. This controversy appears to be caused by the fact that researchers did not define the kind of self-touch they examined and actually, referred to different types of self-touch. Thus, kinematically defining different types of self-touch, such as (discrete), , and , and exploring the neural correlates of the different types will provide insight into the neuropsychological function of self-touching behavior. To this aim, we assessed hemodynamic responses in prefrontal brain areas using functional near-infrared spectroscopy (fNIRS) and behavioral responses with NEUROGES®. Fifty-two participants were recorded during three specific kinematically types of self-touch ( ) that were to be performed on command. The recently developed toolbox Satori was used for the visualization of neuronal processes. Behaviorally, the participants did not perform self-touch reliably. Neurally, the comparison of and self-touch revealed different activation patterns. self-touch is associated with stronger hemodynamic responses in the left Orbitofrontal Cortex and the Dorsolateral Prefrontal Cortex than self-touch. These brain areas have been reported to be associated with self-regulatory processes. Furthermore, self-touch appears to be primarily generated by implicit neural control. Thus, by distinguishing kinematically different types of self-touch, our findings shed light on the controverse discussion on the neuropsychological function of self-touch.