Stage 2: The Cardiovascular Mechanisms of Interoceptive Awareness: Effects of Resonance Breathing

Autor: Anthony P. Pawlak, Shahriar Islam, Jennifer F. Buckman, Evgeny G. Vaschillo, Marsha E. Bates, Mateo Leganes-Fonteneau, Muzumdar N
Rok vydání: 2021
Předmět:
DOI: 10.31234/osf.io/c2jd9
Popis: Interoception, the ability to perceive internal bodily sensations, and heart rate variability (HRV) share common physiological pathways, including the baroreflex feedback loop. The baroreflex can be activated by resonance breathing, wherein respiration is paced at 6 times per minute (0.1Hz), eliciting immediate physiological changes and longer-term therapeutic responses.This registered report characterizes baroreflex functioning as a cardiac mechanism of interoception in a two-session study (n=67). The heartbeat discrimination task was used to obtain indices of interoceptive accuracy, sensibility and metacognition. Baroreflex functioning was measured as HRV at 0.1Hz and baroreflex sensitivity (BRS); high frequency (HF) HRV was calculated as a control. Cardiovascular indices were measured at baseline and during active and control paced breathing after which changes in interoception were measured.The first hypothesis was that baseline baroreflex functioning would predict individual differences in interoceptive awareness. The second hypothesis was that resonance breathing would increase participants’ ability to detect their own heartbeats, and that this effect would be mediated by increases in 0.1Hz HRV and BRS. Data were collected upon in principle acceptance of the manuscript.We found a negative relationship of interoceptive accuracy with baseline HF HRV and BRS, and a positive relationship between metacognitive interoception and 0.1HZ HRV, BRS and HF HRV. We found that changes in 0.1Hz HRV and BRS during resonance breathing positively correlate with increases in interoceptive accuracy. Our results show that the extent to which breathing recruits the resonant properties of the cardiovascular system can facilitate the conscious perception of participants’ heartbeats. We interpret this as an increase in vagal afferent signaling and baroreflex functioning following resonance breathing. We put forward an alternative explanation that HRV modulation can reduce interoceptive prediction errors, facilitating the conscious perception of interoceptive signals, and consider the role of resonance breathing on mental health from an interoceptive inference perspective.
Databáze: OpenAIRE