The depth of the displayed image can be adjusted using the depth controls
When the depth of the field-of-view (FOV) is increased, it becomes possible to display deeper structures
When the depth is decreased, the FOV is narrowed around structures closer to the probe and deeper structures are omitted
Reduction of the depth means that the time from emitted to received signal is reduced; this allows a higher frame rate
Ultrasound image of the heart with different depth settings. The top image is too shallow, the depth of the middle image is appropriate, and the depth in the bottom image is too great.
This user control is similar to the brightness control of a television set
Some of the emitted echo signal is reflected back to the probe when the emitted beam hits a reflective interface in the tissue
The echo signal returning from the tissue is converted to an electronic signal by the probe
This signal is very weak and has to be amplified before it is processed into a greyscale image. The signal amplification is called “gain”
Undergain: If the user sets the gain control too low, the amplification of the electrical signals is too small, and the 2D greyscale image on the screen becomes too dark.
Overgain:If the gain control is set too high, the 2D greyscale image becomes too bright
The image shows an ultrasound image of the heart with different gain settings
The top image is undergained, the middle image has optimised gain, and the bottom image is overgained
The image is generated by the transducer and the ultrasound system and then displayed on the screen
FATE and cardiac ultrasound employs multifrequency phased array probes that display the image as a sector on the screen. The sector is demarcated by the two radii and the arc. In the figure the two radii of the sector are red and blue
The red and the blue radii diverge from the probe at the top of the monitor (the skin surface)
The orientation indicator (OI) is at the right side of the screen by convention in cardiac ultrasound (contrary to all other clinical ultrasound applications where the OI is placed on the left side of the screen)
The blue and red radii on the probe sector always correspond to the radii on the screen
The probe can be moved in three dimensions, but the screen stays neutral
The ultrasound sector produced by the probe and the corresponding ultrasound image on the screen. Notice the colours of US sector (red/blue) correspond to the colours of the screen.
During a “clean” rotation, the direction of the tail of the transducer should be kept 100% stable
Rotation can be: – Right = clockwise – Left = counterclockwise
For rotational instructions we do not make use of a secondary reference point
Example: To obtain the correct subcostal 4 chamber view, alignment with the longitudinal axis of the heart often requires 10-20 degrees counterclockwise rotation
You will therefore often hear the supervisor saying: “Rotate the probe counterclockwise or rotate the transducer to the left”
Rotation as it takes place in the parasternal view
There are two ways to hold the probe properly during the FATE examination
The screw driver grip: With either the back or the palm of the operator hand placed on the patient during scanning
The pencil or lipstick grip: The grip on the probe is made with the first and the second digit The third digit to fifth digit are placed on the skin during scanning to stabilise the probe
The screwdriver grip is seen in the two top images, and the pencil grip in the bottom image
A terminology to describe the movement of the probe during scanning is important in order to optimise the image
During the workshop it makes it easier for the supervisor to give instructions without touching the probe which is crucial for the novice in order to achieve practical skill
There are many available descriptions of the method of manipulation of the probe
We recommend using: 1. rotate 2. tilt 3. slide
These movements are applicable to all scanning locations
As a novice – always move the probe in only one direction at a time
Movements in three different spatial directions.The icon at the bottom indicates that movement should only take place in one plane at the time.
During the workshops the supervisors are encouraged to give instructions with reference to the tail of the transducer and a secondary reference point when appropriate
Examples of secondary reference points: 1. Anatomical landmarks in relation to the volunteer or patient 2. Physical landmarks like the bed 3. Spatial orientation: left/right – upwards/downwards – medial/lateral
When complying with an instruction, never do any movements in other directions
Transducer manipulations with reference to the tail of the probe and four different secondary reference points: X, Y, Z ,V
The FATE examination requires a cardiac phased array probe
The probe scans with low frequency band width permitting good penetration and better visualisation of deeper located structures
We recommend a 1.5-4 MHz multifrequency phased array transducer
Different ultrasound transducers, all made for special purposes. The hand is holding the multifrequency phased array transducer which is the preferred type in cardiac examinations.