Angiography: Difference between revisions
imported>John Stephenson ({{subpages}}) |
mNo edit summary |
||
Line 4: | Line 4: | ||
Once the catheter tip is in place, a [[contrast medium]] is injected through the catheter, making the vessel wall opaque to X-rays, and thus possible to visualize constrictions or tears inside it. While the catheter is in place, other measurements may be taken, such as pressure; [[cardiac catheterization]] combines angiography and pressure measurements. | Once the catheter tip is in place, a [[contrast medium]] is injected through the catheter, making the vessel wall opaque to X-rays, and thus possible to visualize constrictions or tears inside it. While the catheter is in place, other measurements may be taken, such as pressure; [[cardiac catheterization]] combines angiography and pressure measurements. | ||
Related techniques include intravascular [[ultrasonography]], with the ultrasonic [[sound wave]]s generated at the tip of the catheter. | Related techniques include intravascular [[ultrasonography]], with the ultrasonic [[sound wave]]s generated at the tip of the catheter.[[Category:Suggestion Bot Tag]] |
Latest revision as of 16:00, 10 July 2024
Angiography is a medical imaging technique, in which a catheter is threaded through a series of blood vessels, to reach an area of interest. It is guided by imaging techniques, usually fluoroscopy, but it is not restricted to radiologists; it is a basic technique, for example, of invasive cardiology.
Once the catheter tip is in place, a contrast medium is injected through the catheter, making the vessel wall opaque to X-rays, and thus possible to visualize constrictions or tears inside it. While the catheter is in place, other measurements may be taken, such as pressure; cardiac catheterization combines angiography and pressure measurements.
Related techniques include intravascular ultrasonography, with the ultrasonic sound waves generated at the tip of the catheter.