Magnetic resonance imaging (MRI) is one of the most widely used tests in the field of neurology and neurosurgery. MRI provides detail of brain, medulla spinalis, and vascular anatomy, and can visualize anatomy in all three planes: axial, sagittal, and coronal. MRI, or resonance Imaging, maybe a noninvasive test that uses a magnetic field and radio waves frequency to provide detailed images of the structures of the body. A Neuro MRI mainly focuses specifically on the brain, spine, neck, face, and central nervous system This type of MRI is used to help identify disorders related to the central nervous system. You will rest assured that the combination of neuro MRI in New Jersey machines and highly specialized Radiologists will provide a medical report that leads to a precise diagnosis.
Info about brain MRI
A brain MRI (magnetic resonance imaging) scan, popularly known as a head MRI, is a painless procedure that generates very clear images of the structures inside of your head mainly the structure of your brain. MRI uses an outsized magnet, radio waves, and a computer to supply these high-resolution detailed images. The process of MRI does not use radiation. MRI is the most sensitive imaging test that is used to diagnose your head (the main focus of MRI is to generate a structured image of your brain), as compared to other imaging techniques, like CT (computed tomography) scans or X-rays.
Some brain MRI tests use an injection of contrast medium. The contrast agent used in MRI tests is usually gadolinium, which may be considered a rare earth metal. When this substance (gadolinium) is injected into your body, it alters the magnetic properties of nearby water molecules, which reinforces the quality of the images. This technique helps to enhance the sensitivity and specificity of the MRI diagnostic images.
Risks associated with MRI
MR images are produced without making use of any radiation, so patients do not suffer from the harmful effects of ionizing radiation. The Magnetic Resonance surrounding involves a robust, static magnetic flux, a magnetic flux that changes with time (pulsed gradient field), and radiofrequency energy, each of which requires specific safety concerns.
The strong, static magnetic flux attracts small magnetic objects and might damage the scanner or injury the patient or medical professionals if those objects become projectiles. The MRI Scan requires additional attention and safety measure to ensure nothing enters the magnet area that may become a projectile.