Brain activity on a hypersphere

Abstract

Current advances in neurosciences deal with the functional architecture of the central nervous system, paving the way for holistic theories that improve our understanding of brain activity. From topology, a strong concept comes into play in the understanding of brain signals, namely, continuous mapping of the signals onto a hyper-sphere, a 4-dimensional space equipped with a doughnut-like shape that is not detected by observers living in a 3-dimensional world. We evaluate the features of the imperceptible 4th dimension based on resting state functional magnetic resonance imaging series. In particular, we looked for simultaneous activation of antipodal signals on the surface of a cortical hyper-sphere. In this article, we demonstrate that spontaneous brain activity displays the typical features which reveal the existence of a functional hyper-sphere. The suggestion here is that the brain is embedded in a hyper-sphere, which helps solve long-standing mysteries concerning our psychological activities such mind-wandering and memory retrieval or the ability to connect, pasts and future events.