How does an MRI machine work?

Science Museum

14 Nov 201903:11

Summary

TLDRMRI, or magnetic resonance imaging, is a diagnostic tool that leverages the magnetic properties of water molecules in the body. A strong magnet aligns these molecules, which are then excited by radio waves to resonate with the magnetic field. Upon cessation of the radio waves, the molecules release energy, which is detected and translated by a computer into detailed 3D images of organs for medical diagnosis.

Takeaways

🧲 MRI is a medical imaging device used to examine the soft tissues of the human body.
💧 Our bodies are composed of 60% water, which is magnetic due to the hydrogen atoms in water molecules.
🧭 The MRI scanner uses a strong magnet to align water molecules within the body.
🔍 Gradients in the MRI adjust the magnetic field to isolate specific body parts for imaging.
🌀 The MRI process involves aligning water molecules to the magnetic field and then using radio waves to resonate with them.
🌡 Low energy water molecules that do not move along the magnetic field are the focus for imaging specific body parts.
📡 Radio waves are used to match the frequency of the magnetic field, allowing the low energy water molecules to absorb energy.
🔙 When radio waves are stopped, the water molecules release energy and return to their original state, which is detected by the MRI machine.
💻 The detected signal is sent to a computer that uses imaging software to create a visual representation of the body part.
📸 The final output is a three-dimensional image of the organ, which helps doctors in diagnosis.

Q & A

What is MRI and what does it stand for?
-MRI stands for magnetic resonance imaging, which is a medical imaging technique used to examine the soft tissues of the human body.
Why is water significant in the context of MRI scans?
-Water is significant because it makes up 60% of our bodies and its hydrogen atoms act as tiny magnets, being very sensitive to magnetic fields, which is essential for MRI imaging.
How does the MRI scanner create a magnetic field around the patient?
-The MRI scanner uses a big magnet to produce a unified magnetic field around the patient, which is then adjusted by gradients to isolate specific body parts.
What is the role of gradient in an MRI scan?
-The gradient adjusts the magnetic field into smaller sections with different strengths to isolate and focus on specific areas of the body, such as the brain.
How do water molecules behave inside the magnetic field during an MRI scan?
-Inside the magnetic field, most water molecules move at the same frequency as the field, while those not aligned with the field are called low energy water molecules.
What are low energy water molecules and why are they important for MRI imaging?
-Low energy water molecules are those that do not move along the magnetic field. They are important because the MRI machine focuses on them to create images of body parts.
How do radio waves interact with low energy water molecules during an MRI scan?
-Radio waves are sent at a frequency that matches the magnetic field, causing the low energy water molecules to absorb energy and move alongside the magnetic field.
What happens when the MRI machine stops emitting radio waves?
-When the radio waves stop, the water molecules release the absorbed energy and return to their original positions, a movement detected by the MRI machine.
How is the detected movement of water molecules used to create an image?
-The MRI machine detects the movement of water molecules and sends the signal to a computer, which uses imaging software to translate the information into a visual image of the body part.
What kind of final image does the MRI machine produce?
-The MRI machine produces a three-dimensional image of the organ by taking images of the body in each section of the magnetic field.
How do doctors use the MRI images for diagnosis?
-Doctors analyze the three-dimensional MRI images to identify abnormalities, diagnose conditions, and make informed decisions about treatment.