Neurocore, Uses Maps Of The Brain to Record Impulses

Neurocore Brain Training Centers is a private entity formed in 2004. The treatment revolves around analyzation of diagnostic indicators in the autonomic nervous system (ANS). Studying these indicators is what’s technically referred to as, “applied neurofeedback.” While the name suggests, “neuro” is used as the “core” of studies related to how the brain functions. But, it’s more like examining brain neurons to see what makes them dysfunction. Because when working as it should, the human brain is a marvelous and miraculous structure responsible for a multitude of very tiny impulses. These impulses are chemical or electrical signals, which controls how the brain processes information. Learn more about Neurocore at Crunchbase.

There are a group of researchers and scientists working together at Neurocore Brain Centers to unravel the complicated equation of just how the brain works. This is where neurofeedback comes into play along with mapping of the brain using electroencephalogram (EEG) technology. The research being performed at Neurocore Brain Training Centers will someday benefit all of humankind. The results will offer refined treatment options for mental disorders such as, depression, anxiety and Attention Deficit disorders and Autism. Read more about Neurocore at

It’s a rather complex task to unravel the mysteries of brain system failure. Neurocore Brain Training Centers are actually building on positive developments that occured at the end of the 18th century. During this time period, a duo of Italian scientists, Alessandro Volta and Luigi Galvani began to delve into the significance of applied bioelectric and electrophysiology.

Unlike scientific inquiries of the olden days, Neurocore is now using cutting edge EEG technologies for furtherance of quantitative analysis. Analysis that will eventually benefit doctors in clinical settings, providing better protocols for treatment of brain disorders. Neurocore use computer mapping to digitally recorded the tiny electromagnetic impulses within the brain. This data is then compiled and compared against a pool of known individuals within a similar peer group. Peer group bunching is done according to persons of the same age and gender. Once completed the results of the brain mapping and the peer group algorithms are compared to produce a new model of ideal functioning.