Neurologists examine patients who are referred to them by other physicians in both the
inpatient and
outpatient settings. Neurologists begin their interactions with patients by taking a comprehensive
medical history, and then performing a
physical examination focusing on evaluating the nervous system. Components of the
neurological examination include assessment of the patient's
cognitive function,
cranial nerves, motor strength,
sensation,
reflexes,
coordination, and
gait. In some instances, neurologists may order additional
diagnostic tests as part of the evaluation. Commonly employed tests in neurology include imaging studies such as
computed axial tomography (CAT) scans,
magnetic resonance imaging (MRI), and
ultrasound of major blood vessels of the head and neck. Neurophysiologic studies, including
electroencephalography (EEG), needle
electromyography (EMG),
nerve conduction studies (NCSs) and
evoked potentials are also commonly ordered. Neurologists frequently perform
lumbar punctures to assess characteristics of a patient's
cerebrospinal fluid. Advances in
genetic testing have made genetic testing an important tool in the classification of inherited neuromuscular disease and diagnosis of many other neurogenetic diseases. The role of genetic influences on the development of acquired neurologic diseases is an active area of research.
Conditions and treatments Some of the commonly encountered conditions treated by neurologists include headaches,
radiculopathy,
neuropathy, stroke,
dementia,
seizures and
epilepsy,
Alzheimer's disease,
attention deficit/hyperactivity disorder,
Parkinson's disease,
Tourette's syndrome,
multiple sclerosis,
head trauma,
sleep disorders,
neuromuscular diseases, and various infections and tumors of the nervous system. Neurologists are also asked to evaluate unresponsive patients on
life support to confirm
brain death. Treatment options vary depending on the neurological problem. They can include referring the patient to a
physiotherapist, prescribing medications, or recommending a surgical procedure. Some neurologists specialize in certain parts of the nervous system or in specific procedures. For example, clinical neurophysiologists specialize in the use of EEG and
intraoperative monitoring to diagnose certain neurological disorders. Other neurologists specialize in the use of
electrodiagnostic medicine studies – needle EMG and NCSs. In the US, physicians do not typically specialize in all the aspects of clinical neurophysiology – i.e. sleep, EEG, EMG, and NCSs. The American Board of Clinical Neurophysiology certifies US physicians in general clinical neurophysiology, epilepsy, and intraoperative monitoring. The American Board of Electrodiagnostic Medicine certifies US physicians in
electrodiagnostic medicine and certifies technologists in nerve-conduction studies. Sleep medicine is a subspecialty field in the US under several medical specialties including
anesthesiology,
internal medicine,
family medicine, and neurology. Neurosurgery is a distinct specialty that involves a different training path and emphasizes the surgical treatment of neurological disorders. Also, many nonmedical doctors, those with doctoral degrees (usually PhDs) in subjects such as biology and chemistry, study and research the nervous system. Working in laboratories in universities, hospitals, and private companies, these neuroscientists perform clinical and laboratory experiments and tests to learn more about the nervous system and find cures or new treatments for diseases and disorders. A great deal of overlap occurs between
neuroscience and neurology. Many neurologists work in academic training hospitals, where they conduct research as neuroscientists in addition to treating patients and teaching neurology to
medical students.
Neurotherapy involves systemic targeted delivery of an energy stimulus to a specific neurological zone or methods that retrain how the brain functions.
Neurological disorders often have
psychiatric manifestations, such as post-stroke depression, depression and
dementia associated with
Parkinson's disease, mood and cognitive dysfunctions in Alzheimer's disease, and
Huntington disease, to name a few. Hence, the sharp distinction between neurology and psychiatry is not always on a biological basis. The dominance of
psychoanalytic theory in the first three-quarters of the 20th century has since then been largely replaced by a focus on pharmacology. Despite the shift to a medical
model, brain science has not advanced to a point where scientists or
clinicians can point to readily discernible pathological lesions or genetic abnormalities that in and of themselves serve as reliable or predictive
biomarkers of a given mental disorder. ==Neurological enhancement==