I loved DDR growing up! I made this one for a friend I used to play DDR with all the time! Next time I want to try using a mirror for the dance mat parts. And maybe lights?! Ahhh too many ideas!! XD
30% sale going on now at the shop! Cleaning up for the new stock coming soon! ^_^
Watch the American Climate Leadership Awards 2024 now: https://youtu.be/bWiW4Rp8vF0?feature=shared
The American Climate Leadership Awards 2024 broadcast recording is now available on ecoAmerica's YouTube channel for viewers to be inspired by active climate leaders. Watch to find out which finalist received the $50,000 grand prize! Hosted by Vanessa Hauc and featuring Bill McKibben and Katharine Hayhoe!
Dynamic Digital Radiography low-dose X-ray imaging technique enables visualization of anatomy in motion.
Comparison: Fluoroscopy and Dynamic Digital Radiography (DDR) are both imaging techniques that provide real-time visualization of internal body structures. However, they have some key differences:
Fluoroscopy:
Fluoroscopy uses several pulses of an X-ray beam to take real-time footage of tissues inside your body².
It provides a live "video" format image, which shows movements inside the body or of an instrument in the body¹.
Fluoroscopy, when done with contrast, can highlight the inner lining of tubular organs of the body¹.
Theoretically, fluoroscopy carries a higher risk of radiation-related risks than X-rays, as it requires serial X-rays, thus the exposure time is greater¹.
DDR is an enhanced version of a standard digital radiography system that acquires up to 15 frames per second for as long as 20 seconds³.
It results in a maximum of 300 X-ray images with a dose equivalent to about two standard X-rays³.
With DDR, radiation is lower than fluoroscopy or CT, and it requires a shorter exam time than MRI³.
DDR is not fluoroscopy, but rather the X-ray precursor to CT or MRI¹.
In summary, while both techniques provide real-time imaging, DDR offers the advantage of lower radiation exposure and faster exam times compared to fluoroscopy.