====== Magnetic Resonance Imaging (MRI) ====== Magnetic Resonance Imaging (MRI) is a **non-invasive medical imaging technique** that provides high-resolution images of internal body structures, especially **soft tissues** such as the [[brain]], [[spinal cord]], [[muscle]]s, and internal organs. ===== Physical Principles ===== MRI is based on the following components: * A **strong magnetic field** aligns hydrogen nuclei (protons) in the body. * **Radiofrequency (RF) pulses** disturb this alignment. * As protons return to their original alignment, they emit signals. * These signals are detected and processed into detailed images. ===== Advantages ===== * No ionizing radiation. * Excellent soft tissue contrast. * Multiplanar capabilities (axial, sagittal, coronal, oblique). * Functional and contrast-enhanced imaging options. ===== Common Clinical Uses ===== * **Neurology**: stroke, tumors, multiple sclerosis, epilepsy, trauma * **Spine**: disc herniation, myelopathy, spinal tumors * **Musculoskeletal**: ligament/tendon injuries, joint disorders * **Cardiology**: myocardial viability, congenital heart disease * **Oncology**: tumor detection, staging, and follow-up * **Abdominal imaging**: liver, kidneys, uterus, prostate, pancreas ===== Contrast Agents ===== * Gadolinium-based agents are used to enhance vascular structures and highlight pathology. * Usually safe, but used cautiously in patients with severe renal impairment (due to risk of nephrogenic systemic fibrosis). ===== Limitations and Contraindications ===== * **Metallic implants**, **pacemakers**, or **ferromagnetic fragments** may pose risks. * **Claustrophobia** may require sedation or use of open MRI systems. * Long acquisition times compared to CT. ===== Variants ===== * [[fMRI]] (Functional MRI) * [[MR angiography]] (MRA) * [[Diffusion-weighted imaging]] (DWI) * [[Perfusion MRI]] * [[MR spectroscopy]] (MRS) ---- **See also:** * [[Computed Tomography (CT)]] * [[Positron Emission Tomography (PET)]] * [[Neuroimaging techniques]]