The intervillous space (ISV) in the brain has gained importance due to the widespread use of this structure in medicine and life. The MVP is located between the fibers of the main commissural systems in the cerebral cortex, which are also called “Commissural fibers”. It is a system of fibers that connects one half of each lobe of the brain to the other half, providing functional and anatomical connections between the hemispheres.
Although the MEP is an integral part of brain anatomy and has been present for millions of years, its importance in shaping our personality and our brains has only recently begun to be truly understood. Based on this, it is believed that the MEP played a key role in the formation of connections necessary for the functioning of the left and right halves of the brain. Although the MEP is structurally and functionally distinct, it serves as a bridge between the right and left hemispheres, allowing each half to develop its own unique personality characteristics.
The idea of the importance of the MEP is not new, and there is much history and literature documenting the therapeutic and integrative potential of this structure in patients, but very little research documents the MEP and its role in the inner workings of the brain. The purpose of this article is to review the presentation of the “Intervillous Space” as a scientific topic, as well as to provide context for its role in the formation and functioning of our psyche.
Scientific history of MVP The first thing that can be noticed when examining the issue of “intervillous space” is that the term itself was most likely introduced into scientific use at the last stages of the development of the culture of pictographic drawings of prelinguistic people. Within the history of painting, the use of the term has been common to give name to a mark or text placed between connections of lines or geometric shapes, thus demonstrating the symbiosis between lines and connecting forms. According to this point of view, a profit center is an empty space occupied by other elements of the structure, the same