PT - JOURNAL ARTICLE AU - Salomon, Roy AU - Ronchi, Roberta AU - Dönz, Jonathan AU - Bello-Ruiz, Javier AU - Herbelin, Bruno AU - Martet, Remi AU - Faivre, Nathan AU - Schaller, Karl AU - Blanke, Olaf TI - The Insula Mediates Access to Awareness of Visual Stimuli Presented Synchronously to the Heartbeat AID - 10.1523/JNEUROSCI.4262-15.2016 DP - 2016 May 04 TA - The Journal of Neuroscience PG - 5115--5127 VI - 36 IP - 18 4099 - http://www.jneurosci.org/content/36/18/5115.short 4100 - http://www.jneurosci.org/content/36/18/5115.full SO - J. Neurosci.2016 May 04; 36 AB - The processing of interoceptive signals in the insular cortex is thought to underlie self-awareness. However, the influence of interoception on visual awareness and the role of the insular cortex in this process remain unclear. Here, we show in a series of experiments that the relative timing of visual stimuli with respect to the heartbeat modulates visual awareness. We used two masking techniques and show that conscious access for visual stimuli synchronous to participants' heartbeat is suppressed compared with the same stimuli presented asynchronously to their heartbeat. Two independent brain imaging experiments using high-resolution fMRI revealed that the insular cortex was sensitive to both visible and invisible cardio–visual stimulation, showing reduced activation for visual stimuli presented synchronously to the heartbeat. Our results show that interoceptive insular processing affects visual awareness, demonstrating the role of the insula in integrating interoceptive and exteroceptive signals and in the processing of conscious signals beyond self-awareness.SIGNIFICANCE STATEMENT There is growing evidence that interoceptive signals conveying information regarding the internal state of the body influence perception and self-awareness. The insular cortex, which receives sensory inputs from both interoceptive and exteroceptive sources, is thought to integrate these multimodal signals. This study shows that cardiac interoceptive signals modulate awareness for visual stimuli such that visual stimuli occurring at the cardiac frequency take longer to access visual awareness and are more difficult to discriminate. Two fMRI experiments show that the insular region is sensitive to this cardio–visual synchrony even when the visual stimuli are rendered invisible through interocular masking. The results indicate a perceptual and neural suppression for visual events coinciding with cardiac interoceptive signals.