Topic 3 - system optimisation Flashcards
What features make a quality ultrasound image?
An ultrasound image that clearly and accurately displays anatomy and pathology with minimal or no artefact.
What are the three categories on b mode image quality?
- Spatial Resolution
- Contrast resolution
- Temporal resolution
What is spatial resolution?
- The ability to define two separate objects as distinct objects rather than as one single larger object.
- This type of resolution relates to the frequency and focal point of the transducer.
What is contrast resolution?
• a B-mode image in a vascular study should contain a range of shades of grey from pure black through to pure white, without an excessive amount of any one shade dominating the screen.
• Structures within the image can be
o pure black (which represent structures that reflect no ultrasound)
o pure white (which represent structures that reflect all or nearly all of the ultrasound)
What is temporal resolution?
- the ability to view moving objects in real time
- is usually monitored by the frame rate of the image.
- If the image frame rate is too slow, then the image will appear in slow motion and colour flow may not be displayed adequately because the screen takes too long to update.
What defines a good quality colour Doppler image?
- The quality of a colour image depends on the purpose of using the colour.
- clearly visible and contained within the image of the vessel.
- Colour must also show the direction of flow, presence of flow and areas of focal velocity increase.
What is the most important part of spectral Doppler image quality?
- used to make quantitative measurement of velocity and to help document the direction of blood flow.
- Since measurement of the fastest velocities in the systolic and diastolic phases are the primary measurement to quantify stenosis, then the clarity of the outer spectral envelope is of critical importance.
- The clarity of the spectral envelope outline is the primary criteria which defines a good quality spectral waveform.
Describe the appearance of a good quality spectral trace
- Filling of the spectral window is often used in the description of a waveform
- But it can be produced by a number of factors which do not relate to pathology
- therefore it is only of limited value and should only be considered if other pathology is evident.
- adjustment of the spectral Doppler to eliminate spectral broadening should never sacrifice the quality of the spectral envelope.
- The spectral waveform should therefore show a clear spectral envelope with a range of grey-scale that shows full white and a significant number of shades of grey.
Which controls affect B mode image quality?
o Transducer frequency (spatial resolution)
o Output power (contrast resolution)
o System gain (Contrast resolution)
o Dynamic range (Contrast resolution)
o Post Processing (image maps: Contrast resolution)
o Compound imaging (Contrast resolution)
o Harmonic imaging (Contrast resolution)
Which controls affect colour Doppler image quality?
- Transducer frequency
- Sensitivity (ensemble length)
- Scale (Pulse repetition frequency)
- Colour box size
Which controls affect spectral Doppler image quality?
- Spectral map
- Gain
- Gate size
- Filter
- Transducer frequency
- Angle of insonation
- Sweep speed
How does transducer frequency affect bmode image quality?
Higher frequency means greater Spatial resolution
• Higher frequencies are much more sensitive to flow but cannot not penetrate to deeper vessels
• The size of a blood vessel and its depth are the primary determinants of the transducer frequency.
How does output power affect b mode image quality?
(contrast resolution)
• useful in reducing the level of artefact such as reverberation.
• Adjusting power must done with some care
• reducing it too much may remove subtle pathology such as thrombus which is producing low level echoes.
How does system gain affect b mode image quality?
(Contrast resolution)
• controls the amplification of all signals
• gain is defined as the ratio of output power to input power.
• Although reducing gain will reduce artefact to a certain extent, it will often sacrifice the overall Bmode quality of the image and make the image too dark (black) to identify pathology adequately.
System gain should be used to reduce gain if the image is predominantly white, with little or no grey or black. Similarly it can be increased if there is little or no white in the image and the majority of the image is black and lacks detail.
How does TGC affect b mode image quality?
The Time Gain Compensation (TGC) or Depth Gain Compensation (DGC) controls are the most commonly adjusted during an examination.
These control the gain of the returning echos in a specific region of the image and compensate for the loss of signal in the deeper tissue.
How does dynamic range affect b mode image quality?
(Contrast resolution)
• the ratio (in dB) of the maximum input signal that can be displayed without reaching saturation, to the smallest input signal that can be seen visually above noise level.
• can be reduced to minimise the effect of artefacts such as reverberation
• care should be taken to ensure that subtle pathology is not removed from the image as well.
• it can be increased if the detail of a structure or pathology shows subtle changes in grey-scale level.
• Identifying the characteristics of a plaque or highlighting a thrombus which is made of even and low level of returning echo.
How does compound imaging affect b mode image quality?
(Contrast resolution)
• allows the image to be created from multiple directions so that noise can be reduced or eliminated.
• it may eliminate subtle grey-scale detail such as vein thrombus or arterial thrombus in some instances.
How does harmonic imaging affect b mode image quality?
(Contrast resolution)
• In vascular studies, the effect does not improve diagnostic detail in many circumstances but may be advantageous for imaging deeper structures such as the aorta or areas where there is excessive noise.
How does transducer frequency affect colour Doppler image quality?
• usually dictated by the need to obtain appropriate depth or resolution in the Bmode image
• but a higher frequency may be selected to improve detection of slower blood flow
• and a lower frequency may be used to help minimise aliasing.
usually other controls are adjusted first
How does sensitivity affect colour Doppler image quality?
(ensemble length)
• The colour sensitivity (ensemble length) is increased to gather more data from slower flowing or small diameter vessels.
• Increasing the ensemble length is usually shown as a ‘sensitivity’ or ‘flow optimisation’ control where changing the setting to ‘low’ will make it more sensitive to slower flow conditions.
• Increasing the sensitivity may however cause a reduction in the frame rate of the image and this must be considered when the sensitivity is changed.
How does scale affect colour Doppler imaging?
- changes the pulse repetition frequency
- this controls the level of slower velocities which will be displayed and the velocity at which aliasing begins.
- The colour should generally be adjusted so that there is either no aliasing or minor aliasing in the central part of the vessel so that velocity changes can be easily distinguished.
- If the scale is too high, the dynamic range is too large and low velocity signals are missed simulating an area of thrombosis, particularly in low flow vessels, such as the portal vein.
- If the velocity scale is too low, the dynamic range is too small to display the high-velocity signals accurately and aliasing result
How does colour box size affect colour Doppler image quality?
- The colour box size primarily affects frame rate
- the control of colour box size will have a significant impact on slowing the frame rate if it is too large.
- It is important to remember that the WIDTH of the colour box will affect frame rate
- NOT its depth.
How does angle of insonation affect colour Doppler image quality?
• has a significant effect on the presence of aliasing.
• The lower the angle of the colour box to the vessel
• the greater the received frequency shift
• and aliasing will occur at a lower velocity.
• Colour boxes can be steered electronically
• The angle of the beam can also be changed by heel toeing
• Although this technique is used on a daily basis, it does have the disadvantage of reducing the B-mode spatial resolution of the vessel being imaged.
• If absolute B-mode quality is required in a particular image, then colour box steering would be a better option as this allows the image to remain at 90 degrees to the transducer.
(for eg carotid artery study)
How does the wall filter affect colour Doppler quality?
- Vessel wall motion may interfere with the clarity of the colour
- increasing the wall filter will eliminate the low frequency components associated with colour flash in the tissues outside the vessel.
- However it should be stressed that the filter may also remove some of the low velocity signal from the vessel and produce anechoic areas within the lumen.
How does baseline affect colour Doppler image quality?
- Changing the baseline will change the velocity at which the forward and reverse flow will start to aliase.
- Increasing the baseline will reduce the level of aliasing for flow toward the probe and lowering the baseline will reduce the aliasing velocity away from the transducer.
