Neurological Medicine is a system of medicine and that practice of surgery that stores the operative and nonoperative management of diseases of the middle, outside, and autonomic sensitive operations, including their shielding organizations and vascular equipment; the evaluation and therapy of morbid techniques which change the function or action of the nervous system, including the hypophysis; and the operative and nonoperative management of pain. While so, neurological medicine encompasses practice of adult and pediatric cases with disorders of the sensitive system: disorders of the brain, meninges, and skull, and their blood amount, including the extracranial carotid and vertebral arteries; dysfunctions of the pituitary gland,diseases of the spinal cord, and vertebral tower, including those which may require operation by spinal union or instrumentation; and disorders of the cranial and spinal nerves during their relationships.
Aashirwad great brain Neurosurgery is a medical specialty that combines the conventional and surgical instrument of a wide variety of disorders affecting the brain, the spinal cord and spinal column, and the peripheral nerves. Common conditions supported by neurosurgeons include brain tumors, intracranial aneurysms, head injuries, and a broad rainbow of disorders affecting the spine including spinal canal stenosis, herniated discs, tumors, fractures, and spinal malformations.
Dr. S. N. Madhariya has been a neurosurgeon for the last 20 years. During that time period, he was fortunate to witness numerous advances in neurosurgery that have served to revolutionize the field.
Dr. S. N. Madhariya is specialist of below type of Neurosurgery
- Tumors of the brain, spine, and skull
- Trauma to the head and spinal cord
- Cerebral (brain) aneurysms and strokes
- Degenerative spinal conditions and prolapsed discs
- Movement disorders such as Parkinson’s disease
- Conditions that affect cerebra-spinal fluid flow such as hydrocephalus
- Epilepsy
- Infections
- Certain psychiatric disorders
- Congenital conditions such as spina bifida
- Pituitary tumors and neuroendocrine disorders
Neurosurgery now is one of the most technologically intricate surgical works with many grants from computer-based neuronavigational technology, spinal biomechanics and instrumentation, gene treatment for head tumor management, and catheter-driven endovascular techniques, as well as continued progress in neuroradiological technology.
This accelerated development of the field in the past decade has allowed the development of many subspecialties within the department. Although utmost neurosurgeons today continue to practice conventional neurosurgery, more and more neurosurgeons concluding their training are electing to enter arbitrary one-year wages in neuro-oncology, spinal operation, epilepsy surgery, operative neurosurgery, cerebrovascular operation, or pediatric neurosurgery. This great range of operational sub specialization only works to additional run the technical and technological developments that highlight neurosurgery today.
The life of a neurosurgeon can be quite demanding. Many operations can be long and technically intricate. Surgical accidents such as bleeding within the brain or sudden concentration of the spinal cord can occur at any hour of the day or night and demand immediate attention. Cases including severe brain injury, paralysis from stroke to the spinal cord, or a brain tumor in a child can be emotionally taxing for the neurosurgeon taking care of these patients. Yet notwithstanding these challenges and demands, neurosurgery today can also offer a great deal of personal comfort. This happens in restoring a patient to normal function by relieving incapacitating pain, improving motor function, controlling a seizure sickness, or passing shivering.
The individual subspecialties in neurosurgery each offer unique events. Cerebrovascular neurosurgeons trade with disorders involving the blood flow to and within the brain. They perform operations to relieve reduction of the carotid arteries in the neck or exclude aneurysms or arteriovenous abnormalities within the brain. Some operations can only be conducted under controlled, irregular cardiac restraint.
Dr. S. N. Madhariya (Neurosurgeon) who specialize in spinal surgery conduct a wide variety of dysfunctions including the spinal column and spinal cord. These incorporate arthritic syndromes such as herniated discs and bone spurs that can put stress on the nerve roots and the spinal cord, tumors of the spine and spinal cord, spinal fractures, and deformities of the spine such as scoliosis and spondylolisthesis. It is a course that has undergone rapid technological advances in the last decade which have improved the number of cases that can be strongly regulated with the spinal operation.
Pediatric neurosurgeons are confronted with unprecedented neurological disorders affecting children. In addition to maintaining outpatients with head injuries, brain, and spinal tumors, vascular malformations, and seizure disturbances, the pediatric neurosurgeon spends a great deal of time training adolescents with hydrocephalus. Progress in programmable shunt devices has considerably increased the success of shunt surgery.
Dr. S. N. Madhariya (Neurosurgeon) who also specialize in managing patients with complex illness disorders are part of a team of physicians that manage this problem. While the general patients with seizures can be strongly managed with medication, a few continue to have seizures notwithstanding heavy medication. These cases undergo an operation in which a grid of plates are placed on the outside of the brain and left in place for several days. As this time the source of the unusual electrical activity within the brain is clearly planned and confined. When the focus of the seizure has been localized within the brain, the subject then encounters a second administration to have that portion of the brain removed. This system can dramatically reduce the production of seizures and give the seizure patient a relatively normal life.
Dr. S. N. Madhariya who practice in functional surgery is experiencing a dramatic surge in technology. Functional cryosurgery deals with a variety of disorders of the brain that can be incapacitating to a patient. March disorders that can occur with such diseases as multiple sclerosis and Parkinson’s disease can virtually separate a patient from society. With recent advances in computer navigational technology which allows for the extremely precise placement of recording electrodes within the deep brain nuclei, as well as advances in recording capabilities that now allow for recording electrical activity within small groups of neurons, surgery for these conditions can result in a high degree of success in controlling or decreasing these movement disorders.
Neurosurgery is a very onerous, yet greatly satisfying specialty. It offers a wide class of clinical challenges and surgical rights. It is well suited to those people seeking a career in surgery who have a strong interest in the human nervous system and the various disorders that can affect it. The technological advances that continue to evolve will help keep neurosurgery a fresh and impressive field for decades to come.