Abstract
The ability of the forebrain to track and integrate respiratory signals, a process known as breathing interoception, is critical for detecting respiratory threats and ensuring survival, yet its neural mechanisms remain largely unknown. Using human intracranial recordings, we identified widespread synchronization between forebrain neural oscillations and breathing rhythms across wakefulness, sleep, and external mechanical ventilation. During wakefulness, localized sites within known interoceptive regions such as insula, somatosensory cortex, anterior cingulate cortex, and amygdala robustly synchronized with breathing, highlighting their critical roles in breathing interoception. During sleep, forebrain synchronization with breathing decreased, while persisting in the amygdala and hippocampus, which may support vigilance and memory consolidation. In contrast to rodents, nasal airflow was not required for this synchronization, implicating multiple afferent pathways in respiratory interoception and possible unique evolutionary changes in humans. When breathing was driven by an external mechanical ventilator, the imposed breathing rhythm directly entrained forebrain activity, indicating a causal link. Notably, ventilator-driven slow, deep breathing entrained more forebrain sites, suggesting a potential mechanism through which breath-based practices might influence emotion and cognition. Together, these findings redefine breathing interoception as a pervasive influence within the forebrain, with implications for understanding disorders of respiratory awareness, emotional regulation, and cognitive health.
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Acknowledgements
We thank the patients and their families for their generous participation in this research. We also acknowledge the clinical teams at the University of Iowa Hospitals and Clinics and the Stead Family Children’s Hospital for their support during patient monitoring and data acquisition. We are especially grateful to Haiming Chen, Christopher Garcia, Deanne Tadlock, Tammy Bryant, and Prairie Seivert for their invaluable assistance in data acquisition. Philanthropic support was generously provided by Jeffrey and Marilyn Moss, Sam Reeves, and David and Elizabeth Hoak.
Funding
This work was supported by the National Institutes of Health (NIH) National Institute of Neurological Disorders and Stroke grant K08 NS112573-01 (to B.J.D.); NIH National Institute of Mental Health R01MH113325 (to J.A.W.); NIH National Institute on Drug Abuse R01DA052953 (to J.A.W.); NIH training grant T32 MH019113 (to A.C.C.); NIH NINDS R01 NS113764 (to G.B.R.); NIH National Institute on Deafness and Other Communication Disorders grant P50DC01990 (to K.S.); and the National Institute of Health Research (NIHR) Biomedical Research Centre based at Oxford University Hospitals NHS Trust and the University of Oxford (to K.T.S.P.). Additional support was provided by the Roy J. Carver Charitable Trust, the Roy J. Carver Chair in Neuroscience (to J.A.W.), and the U.S. Department of Veterans Affairs Merit Review Award and institutional support (to J.A.W.).
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Mowla, M.R., Rhone, A.E., Kumar, S. et al. Human forebrain neural synchronization and entrainment to breathing during wakefulness, sleep, and external mechanical ventilation. Nat Commun (2026). https://doi.org/10.1038/s41467-026-73828-0
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DOI: https://doi.org/10.1038/s41467-026-73828-0
