Term
Define:
Real-time imaging |
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Definition
The production of a motion picture
A series of frames displayed in a rapid succession to give the impression of constant motion. |
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Term
The most important operational parameter associated with an ultrasound "movie" is the system's ability to create numerous frames each second. This parameter is called? |
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Definition
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Term
Frame rate is determined by what two factors? |
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Definition
1. sound's speed in a medium
2. the depth of imaging
The speed of sound in soft tissue is considered to be constant at 1.54 km/s. In clinical u/s, the maximum imaging depth determines frame rate. |
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Term
What is the measuring units utilized for frame rate? |
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Definition
Frame rate is measured in hertz (Hz), or "per second." The units of frame rate are "images per second." |
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Term
Define:
Temporal Resolution |
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Definition
The ability to accurately locate moving structures at any particular instant in time. |
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Term
What is temporal resolution determined by? |
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Definition
Frame rate only.
The faster the frame rate, the better the temporal resolution. |
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Term
What are the 4 factors that are under the control of the sonographer that can affect temporal resolution? |
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Definition
1. maximum imaging depth
2. # of pulses per scan line (multi-focus systems)
3. sector size
4. line density (lines per degree of sector) |
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Term
To determine the effect on temporal resolution, what 2 questions should the sonographer ask? |
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Definition
1. Is the image shallower?
2. Is the image comprised of fewer pulses? |
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Term
With regard to maximum imaging depth, what will create a frame in less time? |
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Definition
Shallow depth of view makes a frame faster and improves temporal resolution.
Imaging to a shallow depth requires less listening.
Imaging to a greater depth of view requires longer listening.
If imaging depth is double (6 cm to 12 cm), the frame rate will be halved. |
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Term
With regard to pulses per scan line, what will create a frame with fewer pulses? |
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Definition
Single focus systems use fewer pulses, and have better temporal resolution.
Single focus systems use only 1 pulse per scan line.
Multi-focus systems, such as annular phased arrays, use multiple pulses per scan line. This lowers the frame rate and reduces temporal resolution. |
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Term
What do you usually lose if you improve image quality? |
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Definition
Improving image quality often degrades temporal resolution.
Multi-focus generally improves lateral resolution but reduces frame rate; thus, degrading temporal resolution. |
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Term
With regards to sector size, what will create a frame with fewer pulses? |
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Definition
Smaller sector angle creates image with few pulses, improving temporal resolution.
Creating an image with a 30° sector requires a certain number of u/s pulses. Whereas, a 90° sector image uses three times as many pulses. |
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Term
With regard to line density, what will create a frame with fewer pulses? |
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Definition
Low line density images use fewer pulses, and have better temporal resolution. However, lower line density degrades spatial resolution (called detail resolution.)
Line density in a sector image is the number of scan lines per degree of sector. Line density in a rectangular image is the number of scan lines per centimeter. When the line density is low, temporal resolution is high. |
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