How X-rays see through your skin - Ge Wang

TED-Ed

22 Jun 201504:42

Summary

TLDRIn 1895, Wilhelm Roentgen accidentally discovered X-rays while experimenting with a cathode tube. These powerful rays, capable of passing through materials like bones, revolutionized medicine by enabling doctors to see inside the body without surgery. X-rays are a type of electromagnetic radiation, and their ability to penetrate dense materials is key in medical imaging. While 2D X-ray images provide useful insights, computed tomography (CT) scans, using multiple X-ray angles, deliver detailed 3D images that help detect tumors, infections, and other conditions. Today, X-ray and CT scans are essential diagnostic tools used in millions of procedures worldwide.

Takeaways

😀 Wilhelm Roentgen discovered X-rays in 1895 while experimenting with a cathode tube, leading to a groundbreaking medical advancement.
😀 X-rays are a form of electromagnetic radiation with higher energy than visible light but lower energy than Gamma rays.
😀 X-rays can pass through various materials, making them useful for medical imaging, especially for bones and internal organs.
😀 Roentgen initially called the mysterious rays 'X-rays' due to their unknown nature, and his discovery earned him a Nobel Prize.
😀 X-rays interact with matter by either transferring energy or scattering, depending on the material's density and atomic number.
😀 Dense materials like bones, which are rich in calcium, absorb more X-rays, whereas soft tissues, like muscles and lungs, allow X-rays to pass through.
😀 Standard X-ray images are 2D and have limited detail, making it difficult to visualize complex internal structures accurately.
😀 A CT (Computed Tomography) scan uses multiple X-ray images from different angles to create detailed 3D images of the body.
😀 CT scans can detect a variety of conditions, including tumors, blood clots, infections, and even heart disease.
😀 CT technology has advanced enough to examine ancient mummies, allowing researchers to detect health issues in people who lived thousands of years ago.
😀 Over 100 million CT scans are performed annually worldwide, significantly impacting medical diagnostics and treatment outcomes.

Q & A

What was Wilhelm Roentgen experimenting with when he discovered X-rays?
-Wilhelm Roentgen was experimenting with a cathode tube, a glass container in which a beam of electrons illuminates a fluorescent window.
Why did Roentgen call the rays he discovered 'X-rays'?
-Roentgen called them 'X-rays' because he had no idea what the rays were, and 'X' is commonly used to represent an unknown quantity in science.
How are X-rays produced in the cathode tube?
-X-rays are produced when high-energy electrons in the cathode tube hit a metal component, either slowing down and releasing energy or knocking off electrons from atoms, which causes a reshuffling and releases energy in the form of X-rays.
What makes X-rays a type of electromagnetic radiation?
-X-rays are a type of electromagnetic radiation because they consist of waves of energy that travel through space and have higher energy than visible light but lower energy than gamma rays.
Why are X-rays useful for medical applications?
-X-rays are useful for medical applications because they can pass through the body and make images of internal organs, such as bones, without causing significant harm, although they carry a small risk of mutations in certain tissues.
How do lead aprons help during X-ray procedures?
-Lead aprons are used during X-ray procedures to block the X-rays from reaching sensitive tissues, such as reproductive organs and the thyroid, in order to reduce the risk of mutations.
What happens when X-rays interact with matter?
-When X-rays interact with matter, they collide with electrons. Sometimes, the X-ray is fully absorbed by the matter, and other times, part of the energy is transferred while the rest is scattered.
Why do bones absorb X-rays more effectively than soft tissue?
-Bones absorb X-rays more effectively because they are denser and contain calcium, which has a higher atomic number, meaning more electrons are available to interact with the X-rays. Soft tissue, on the other hand, is less dense and contains elements with lower atomic numbers, so more X-rays pass through it.
What is the limitation of 2D X-ray images?
-The limitation of 2D X-ray images is that they show a sum of all the interactions along the X-ray's path, which can make it difficult to discern the exact position and depth of internal features, like tumors.
How does a CT scan improve upon traditional X-ray imaging?
-A CT scan improves upon traditional X-ray imaging by taking X-ray images from multiple angles around the body and using them to create detailed 3D cross-sections of internal structures, allowing for more accurate diagnoses.