Psychiatry and Psychiatric Disorders
Depression and Anxiety Disorders
Neuroscience and Neurodegenerative Diseases
Neuropsychiatry
Neurosurgery
Case Studies and Ethical issues
Neuroimaging and pathology
All of clinical neuroscience has been transformed by neuroimaging, particularly how severe brain pathology may be identified in a live patient. The primary neuroimaging techniques for the pathological identification of acute and subacute traumatic injury in traumatic brain injury (TBI) are computed tomography (CT) and magnetic resonance imaging (MRI), with MRI best suited to identifying and quantifying the more chronic consequences. All neuroimaging findings of trauma-related pathology, however, are merely outward manifestations of the microscopic cellular and vascular illnesses that underlie all TBI.
Neurological Complications of COVID_19
While the most common clinical diagnosis for the COVID-19 pandemic is respiratory disease, there is growing awareness of neurological manifestations. The COVID-19 pandemic is caused by extreme coronavirus 2 (SARS-CoV-2) acute respiratory syndrome and is of a magnitude not seen since the influenza pandemic of 1918. Based on information about other coronaviruses, particularly those that produced severe acute respiratory syndrome and epidemics of the centre East respiratory syndrome, it should be assumed that occurrences of CNS and peripheral systema nervosum disease brought on by SARS-CoV-2 are rare. For scientists, researchers, and young scholars to better understand the neurological side effects of COVID-19, Neuroscience 2023 offers a platform.
Neuroimmunology
The sciences of neurology, psychiatry, and immunology all contributed to the development of neuroimmunology as a unique discipline. Although neuroimmunologists initially focused on traditional neuroinflammatory disorders like multiple sclerosis and infections, there is compelling evidence that the immune response also contributes to age-related white matter disorders, epilepsy, neurodegenerative diseases, neuropsychiatric disorders, peripheral nervous system disorders, and neuro-oncological conditions. Technology advancements have considerably aided our understanding of how the immune system influences the neurological system during development and ageing, and how such reactions result in disease as well as regeneration and repair.
Pediatric Neurology
In the same way that paediatric neurology developed into a recognised specialty because there was too much information and complexity for a general paediatrician or adult neurologist to master, the field has since continued to develop into a variety of subspecialties. These include epilepsy, neuromuscular disease, stroke, malformations, neonatal neurology, metabolic diseases, etc. that an overall paediatrics neurologist cannot reasonably expect to have in-depth knowledge of. Thus, following a standard paediatric neurology residency, fellowship programming offer subspecialty expertise to some trainees, and many of these fellowships also incorporate research training.