TY - JOUR
T1 - Low- and high-level coordination of orofacial motor actions
AU - Kleinfeld, David
AU - Deschênes, Martin
AU - Economo, Michael N.
AU - Elbaz, Michaël
AU - Golomb, David
AU - Liao, Song Mao
AU - O'Connor, Daniel H.
AU - Wang, Fan
N1 - Publisher Copyright:
© 2023 Elsevier Ltd
PY - 2023/12
Y1 - 2023/12
N2 - Orofacial motor actions are movements that, in rodents, involve whisking of the vibrissa, deflection of the nose, licking and lapping with the tongue, and consumption through chewing. These actions, along with bobbing and turning of the head, coordinate to subserve exploration while not conflicting with life-supporting actions such as breathing and swallowing. Orofacial and head movements are comprised of two additive components: a rhythm that can be entrained by the breathing oscillator and a broadband component that directs the actuator to the region of interest. We focus on coordinating the rhythmic component of actions into a behavior. We hypothesize that the precise timing of each constituent action is continually adjusted through the merging of low-level oscillator input with sensory-derived, high-level rhythmic feedback. Supporting evidence is discussed.
AB - Orofacial motor actions are movements that, in rodents, involve whisking of the vibrissa, deflection of the nose, licking and lapping with the tongue, and consumption through chewing. These actions, along with bobbing and turning of the head, coordinate to subserve exploration while not conflicting with life-supporting actions such as breathing and swallowing. Orofacial and head movements are comprised of two additive components: a rhythm that can be entrained by the breathing oscillator and a broadband component that directs the actuator to the region of interest. We focus on coordinating the rhythmic component of actions into a behavior. We hypothesize that the precise timing of each constituent action is continually adjusted through the merging of low-level oscillator input with sensory-derived, high-level rhythmic feedback. Supporting evidence is discussed.
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U2 - 10.1016/j.conb.2023.102784
DO - 10.1016/j.conb.2023.102784
M3 - Review article
C2 - 37757586
AN - SCOPUS:85172020216
SN - 0959-4388
VL - 83
JO - Current Opinion in Neurobiology
JF - Current Opinion in Neurobiology
M1 - 102784
ER -