Parallel processing chains span cytoarchitectures to organize association cortex.
| Publication Type | Preprint |
| Authors | Gordon E, Rajesh A, Chauvin R, Labonte A, Adeyemo B, Dworetsky A, Lynch C, Krimmel S, Cho P, Wang A, Baden N, Scheidter K, Monk J, Metoki A, Ren J, Nishino T, Park Y, Rafka E, Pruett J, Kepecs A, Liu H, Fair D, Liston C, Woo C, Kay B, Marek S, Petersen S, Sylvester C, Schwarzlose R, Raichle M, Laumann T, Dosenbach N |
| Journal | bioRxiv |
| Date Published | 04/22/2026 |
| ISSN | 2692-8205 |
| Abstract | Task fMRI 1 and electrophysiology 2 have revealed distributed, linked cortical patches with shared category preferences (e.g., faces, objects, places) 1,3-5 , smaller than cytoarchitectonic areas. Resting-state functional connectivity (RSFC) similarly showed that somato-cognitive action network (SCAN) nodes interleave with effectors (foot, hand, mouth), subdividing the precentral gyrus 6 . Here, using multiple precision functional mapping (PFM) modalities (RSFC, task, lags), we discovered that most of association cortex is organized like face processing and SCAN, with small, discrete patches interconnected into chains. Such patch-chains densely tile prefrontal cortex but are largely absent from primary cortex. Cortico-striatal connectivity is organized such that patches of the same chain connect to the same striatal location. Within chains, infra-slow fMRI signals are ordered in time. RSFC-defined chains align with task fMRI localizers (e.g., visual, motor, pain). Chains are absent at birth and emerge in the first year of life, suggesting their formation is at least partially experience-driven. Cytoarchitectonic areas are subdivided by patches, and patches in the same chain are distributed across different cytoarchitectures. Chains represent parallel ordered processing streams that are separated by information domain and behavioral goals, not cytoarchitectonics. Functional subdivision of architectonics into smaller patches, interlinked to form cross-architecture chains, enable greater parallelization and flexible specialization of processing. |
| DOI | 10.64898/2026.04.21.717753 |
| PubMed ID | 42079260 |
| PubMed Central ID | PMC13131596 |