A peer-reviewed scientific publication called Brain Disorders & Therapy is renowned for its quick distribution of top-notch research. Authors in academia and business can publish their original research on an open access basis in this high impact factor journal for brain disorders. It provides the International Scientific Community with its typical papers on brain research.

Brain mapping is a group of neuroscientific methods focused on plotting numbers or other attributes on a map of the brain's spatial representation. The mapping of the brain includes all neuroimaging. Brain mapping is a more sophisticated kind of neuroimaging that generates brain pictures that are supplemented by the outcomes of additional (imaging or nonimaging) data processing or analysis. A connectogram is a diagram that displays the cortical region around a circle arranged by concentric circles that each stand for a typical neurological measurement, such as brain structure or curvature. The interconnections between the cortical areas are depicted by the line representing the white matter fibres in the centre of the circle, which is weighted by the ratio of anisotropy and the strength of the connections. The Connectome is the name given to the brain's map at higher resolutions. These maps, which are frequently shown as schematics, offer details about specific neurological connections in the brain. Technology for brain function mapping is constantly developing and depends on advances in image acquisition, representation, analysis, visualisation, and interpretation methods. The mapping component of brain mapping is centred on functional and structural neuroimaging.

Techniques for evaluating brain function during recovery and rehabilitation include electroencephalography, near-infrared spectroscopy (NIRS), local cerebral blood flow, local metabolic rate, PET or SPECT, and brain imaging techniques (NIRS). Many mapping methods use tens of thousands of neurons per voxel, which results in rather low resolution. Many brain activities include a variety of brain regions. In other words, this kind of claim is typically based on false assumptions about how the brain is organised and may not be supported by the tools used. The majority of brain activity might not be accurately described until it is examined using much finer measurements that look at numerous small, individual brain circuits rather than broad areas. Technical problems like small sample sizes and inaccurately calibrated equipment make it impossible to replicate many of these studies. Brain function mapping technology is sometimes employed for financial gain.