Neuro MRIs are a type of brain scan that uses magnetic resonance imaging (MRI) to produce detailed images of the brain. Neuro MRIs can be used to diagnose brain disorders, assess brain damage, and track the progression of neurological diseases.
How Neuro MRIs Work:
Neuro MRIs use strong magnetic fields and radio waves to produce detailed images of the brain. During a neuro MRI, the patient lies on a table that is inserted into the MRI machine. The machine then takes a series of images of the brain.
Neuro MRIs are painless and noninvasive. The images produced by neuro MRI in New Jersey can be used to diagnose brain disorders, assess brain damage, and track the progression of neurological diseases.
Neuro MRIs can be used to diagnose a wide variety of neurological disorders, including:
- Brain tumors
- Multiple sclerosis
- Parkinson’s disease
- Alzheimer’s disease
- Brain aneurysms
- Brain damage
- Infections of the brain
- Neurological disorders
How Neuro MRIs Performed
Neuro MRIs are performed in a hospital or outpatient radiology center. The procedure is quick and painless.
During a neuro MRI, you will lie on a table that slides into the MRI machine. A coil will be placed around your head to focus the MRI machine on your brain. A jelly-like substance will be placed on your head to hold the coil in place. You will be given earplugs or headphones to muffle the loud noises made by the MR machine.
You will be able to communicate with the technologist performing the scan at all times. The technologist will watch you from a room next to the MRI room. If you feel claustrophobic, you can tell the technologist. The technologist can give you a mild sedative if needed. The MRI machine will take pictures of your brain. The MRI scan will last 30 to 45 minutes.
Benefits of Neuro MRIs:
Neuro MRIs are a valuable tool for diagnosing and treating brain disorders. Neuro MRIs can provide detailed images of the brain that can be used to diagnose disorders, assess the damage, and track the progression of diseases. Neuro MRIs are also non-invasive and painless, which makes them an ideal tool for diagnosing and treating brain disorders.