Grids Flashcards
True or false: grids are the most effective means for limiting scatter radiation that reaches the IR
True
Grid
- has very thin lead strips inside with radiolucent interspaces
- purpose is to absorb scatter from the patient
- goes in between the patient and IR to improve image contrast (reduce image fog)
Grid construction
To describe a grid we would use grid frequency and grid ratio
- grid frequency: number of lead lines per unit length (inches/cm/both)
- grid ratio: ratio of the height of the lead strips to the distance between them
Grid frequency
- when using a stationary high frequency grid, the resultant images will show less distinct grid lines
- grids with higher frequency have thinner lead strips
Grid ratio
-ratios range from 4:1 to 16:1
-high ratio grids remove/clean up more scatter than lower ratio grids
🔹increase radiographic contrast
-the angle of scatter allowed by high ratio grids is less than that of low ratio grids
Grid ratio
-the higher the grid ratio, the straighter the scatter must be in order to pass through to the IR
-scatter must have alignment very close to primary to be able to pass through interspaces
-meaning higher ratio grids:
🔹remove more scatter
🔹require more accurate positioning of tube
🔹prone to increasing grid errors
Grid cut off
What is it? -absorption of the primary beam (transmitted x-rays) by the lead strips 🔹'cut off' from reaching IR -undesirable -loss of radiographic density -can be partial/complete -can occur with any type of grid -causes 'grid errors'
Grid patterns
- refers to the pattern of the lead lines of a grid
- two types of patterns:
1. Linear - grid lines run in one direction
- most popular
2. Crossed or cross hatched - grid lines run in two directions
Crossed or cross hatched pattern
-lead lines run at right angles to each other
-removes more scatter than linear because there are more lead strips oriented in two directions
-limited application as the tube cannot be angled
-very precise positioning required
Advantages: much more efficient at cleaning up scatter
Disadvantages: positioning of grid is critical and CR is critical, must be perfectly cantered, exposure technique is substantial, higher patient dose
Linear pattern
-most commonly used because it allows for angulation along the length of the lines
-can be:
🔹parallel
🔹focused
Parallel grid
- simplest type of grid
- has lead strips that run parallel to each other
- easiest to manufacture
- main disadvantage: cannot avoid grid cut off of the image
- more attenuation occurs as the x-rays approach the edge of the IR
- would notice greater radiographic density along center line of IR, but decreasing density towards the sides
- greater grid cut off will occur with shorter SID
Focused grid
- designed to minimize grid cut off
- lead strips are angled to approximately match the angles of the divergent x-ray beam
- allows more transmitted photons to reach IR
- transmitted photons are more likely to pass through a focused grid to reach the IR than they are to pass through a parallel grid
- less grid cut off
- even density throughout image when positioned correctly
Convergent point
-imaginary lines drawn from each of the lead lines, would meet to form an imaginary point
🔹called the convergent point
-if all points were connected along the length of the grid
🔹called convergent line
