Brain science in the field of neurology focuses on understanding how the structure and physiology of the brain works to enable complex cognitive functions such as emotion, perception, regulation, thinking, behavior, and attention. It looks at how the brain and nervous system are wired together to enable the experience and expression of human behavior. It is also concerned with the diagnosis, treatment, and prevention of neurological disorders and diseases. Brain science includes the study of the interaction between millions of neurons, chemical messengers, genetic factors, and environmental influences which all have an integral role in complex functioning of the brain. Researchers utilize laboratory techniques to examine the brain, identify the specific neurological changes associated with a particular disease or disorder, and further develop new treatments and therapies. With the current advances in technology, scientists are able to observe neural pathways more closely, allowing for a more thorough analysis of the brain. Brain science in the field of neurology has recently experienced a surge of advancements. For example, high-resolution imaging techniques such as functional magnetic resonance imaging (fMRI) are being used to observe and quantify the way neurons interact within the brain. This technology helps to identify potential therapies and treatments by providing a better understanding of the underlying mechanics of the brain. In addition, neuroscientists are learning how the brain is organized by examining the structure, connectivity, and function of neurons. This further supports the understanding of the many neurological disorders, as well as potential treatments. By studying how the brain works, neurologists can better identify the causes of the disease, as well as methods of prevention, early detection, and intervention. Overall, brain science has a vital role to play in the field of neurology. Understanding how the brain works is essential in order to develop therapies and treatments that can successfully improve the lives of those affected by neurological conditions. In order to continuously explore new ways of understanding the brain, neurologists must collaborate with neuroscientists in order to utilize the latest advancements in technology and identify potential breakthroughs in the treatment of neurological conditions.
Title : A case of vile vindictive primary CNS vasculitis
George Diaz, Memorial Healthcare Systems, United States
Title : Novel important cellular responses, signaling mechanisms and therapeutic options in vascular dementia
Yong Xiao Wang, Albany Medical College, United States
Title : The role of beliefs, perception, and behavioural patterns in the evolution of psychophysical disorders
Ken Ware, NeuroPhysics Therapy Institute and Research Centre, Australia
Title : Narrative medicine: A communication therapy for the communication disorder of Functional Seizures (FS) [also known as Psychogenic Non-Epileptic Seizures (PNES)]
Robert B Slocum, University of Kentucky HealthCare, United States
Title : How have we eliminated infection: From the bone to brain?
Thomas J Webster, Interstellar Therapeutics, United States
Title : Cervical stenosis-induced chronic cerebrospinal fluid flow restriction as a contributing cause of dementia
Joe Sam Robinson, Mercer University, United States