Revisiting human language and speech production network: A meta-analytic connectivity modeling study
Chun‐Wei Hsu, Chu‐Chung Huang, Chih‐Chin Heather Hsu, Yanchao Bi, Ovid J. L. Tzeng, Ching‐Po Lin
Abstract
• This study employs advanced meta-analytic methods to revisit language production networks and map four key language processing components. • We identified a distinct speech control network separate from the domain-general and high-level language networks. • The left ventral precentral cortex is shown to play a central role in language production, beyond Broca's area. • Our research proposes a novel framework for a language production network. • Propose a two-pathway process, emphasizing the speech control system's central coordination role in language tasks. In recent decades, converging evidence has reached a consensus that human speech production is carried out by large-scale hierarchical network comprising both language-selective and domain-general systems. However, it remains unclear how these systems interact during speech production and the specific contributions of their component regions. By utilizing a series of meta-analytic approaches based on various language tasks, we dissociated four major systems in this study: domain-general, high-level language, motor-perception, and speech-control systems in this study. Using meta-analytic connectivity modeling, we found that while the domain-general system is coactivated with high-level language regions and speech-control networks, only the speech-control network at the ventral precentral gyrus is coactivated with other systems during different speech-related tasks, including motor perception. In summary, this study revisits the previously proposed language models using meta-analytic approaches and highlights the contribution of the speech-control network to the process of speech production independent of articulatory motor.