Info |
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TAs: Süleyman Yasin Peker |
Topics covered:
Introduction to Verasonics Vantage 32LE Ultrasound Research System.
Introduction to ultrasound transducers.
Introduction to ultrasound imaging modes.
Real-time data acquisition using Verasonics.
Time-of-flight measurement of common carotid artery (cca) using ultrasound and image processing.
Flow measurement and color colour doppler imaging using ultrasound.
Experiment details:
Introduction
This experiment involves the use of the Verasonics Vantage 32LE, a sophisticated ultrasound research system, to explore various aspects of ultrasound imaging and data acquisition. Participants will gain hands-on experience with different ultrasound imaging modes, including A-Mode, B-Mode, Color Colour Doppler, and Spectral Power Doppler, while understanding the applications of linear array, curvilinear/convex, and phased array transducers. The experiment will also cover real-time data acquisition using the Verasonics system, focusing on measuring time-of-flight values for echoes and analyzing the power spectrum of ultrasound signals in Doppler mode. This comprehensive approach will provide a deeper understanding of both the technical and practical aspects of ultrasound technology.
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Theoretical Background
Ultrasound Transducers
A linear transducer is a straight transducer. The linear transducer’s length determines the image’s sector width and shape. A linear transducer offers detailed resolution at superficial depths. Linear transducers are most frequently used with MSK, nerve, small parts, vascular, and pediatric applications.
A convex transducer is a curved transducer. The shape of a convex transducer determines the sector width and shape of the image. A convex transducer offers a wider field of view for larger or deeper structures. Convex transducers are most frequently used for abdomen, obstetrics/gynecology (OB/GYN), urology, and some musculoskeletal (MSK) applications.
A phased array transducer has a small footprint with a sector image shape and features high temporal resolution and penetration. This allows clinicians to image structures that are moving in real-time. Phased array transducers are most frequently used with applications ranging from cardiac, transcranial, abdomen, and pediatrics.
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Ultrasound Imaging Modes
The earliest ultrasound mode showed returning echoes in a one dimensional, graphical format (Figure 3). Known as amplitude or A-mode, the information could be used to measure the distance between, or thickness of, tissues. An example is examining the cornea, lens and chambers of the eye.
“B” or Brightness mode represents the amplitude peaks seen in A-mode as dots or pixels of varying brightness (Figure 2).
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Using B-mode, ultrasound systems can send sequential ultrasound pulses out in different directions to form multiple image lines. This process is completed quickly and repeatedly, creating the typical ultrasound image seen on all systems.
In this display mode, Doppler data received by the ultrasound system is displayed as coloured pixels within the sample box shown on the B-mode image (Figure 6). This gives information about direction and a semi-quantitative assessment of blood flow velocities.
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A variation of colour Doppler available on most systems is a power Doppler display. This mode ignores the directional information provided by Doppler shift and displays the total Doppler signal strength as shades of one colour (Figure 7). Whilst it does not display any data on flow direction, power Doppler is a useful tool for examining low velocity blood flow and is more sensitive to flow than colour doppler.
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Report requirements:
The report for this part is expected to include:
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