Point-of-Care Ultrasound Techniques for the Small Animal Practitioner. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Биология
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isbn: 9781119461029
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For the POCUS and FAST scans, generally keep the focal point number at 1, and set the focal point's position at, or just deep to, the area of interest.

      Even with just these four settings, that's still a lot of knobs to be adjusting in the emergent situation. Modern ultrasound machines have a collection of imaging settings which the user may select, based upon the area of interest, such as cardiac vs abdomen vs small parts and others, and patient size, adult versus pediatric. Trying to image an abdominal structure if the machine is on the small parts preset will lead to frustration until the sonographer realizes that the preset must be changed first to be able to adjust and manipulate the Big 4 knobs.

      Up to now, we have been talking about B‐mode, or standard two‐dimensional, ultrasonography. A‐mode has no practical bearing on the emergency scans outlined in this book and therefore will not be discussed. However, M‐mode and color flow Doppler imaging are used in many of the POCUS and FAST protocols and during ultrasound‐guided procedures.

       M‐Mode

      The “M” in M‐mode stands for “motion.” This mode has also been called the “ice pick” mode because it reflects a small column of ultrasound waves but follows it over time. Cardiac ultrasound is where M‐mode is best known. It can be a little challenging to understand what is being displayed on the screen but using the B‐mode view to show just where that “ice pick” is cutting through is helpful. M‐mode is used not only for certain cardiac studies but also in certain lung and pleural space studies, vascular measurements for volume assessment, and fetal imaging. Importantly, M‐mode speed may be adjusted to slow, medium, and fast, and the M‐mode speed setting can significantly impact what you are attempting to interrogate, depending on the area of interest.

       Color Flow Doppler

      Color flow Doppler is used in combination with B‐mode ultrasonography. It allows you to see blood flow within a vessel and helps to determine the direction of that flow. Doppler is best when the flow is parallel with the sound beam. Color signatures are usually set up so that flow toward the probe is red – remember by “you are getting warmer” – and flow away from the probe is blue – remember by “you are getting colder” or that “blue” and “away” have the same number of letters – although this can be set on most machines to user preference. Color flow Doppler has its limitations, with low velocities and is also affected by patient movement, a phenomenon called “jumping” (see Chapter 25).

      To maximize accurate image acquisition and proper interpretation, the sonographer should be familiar with settings that affect color flow Doppler (Pozniak et al. 1992). Briefly, the Big 3 are gain, pulse repetition frequency, and wall filter setting, and their effects are as follows.

       Gain: the overall sensitivity to flow signals.

       Pulse repetition frequency (also known as PRF, scale, or velocity scale): user‐defined setting. Use a lower PRF with low velocities; use a higher PRF with higher velocities to correct aliasing. If too high a PRF is selected, low velocities may not be recorded, and a vessel may appear as if thrombosed (no flow); conversely, too low a PRF will lead to overlap of the signal on the image.

       Wall filter: removes unwanted low‐velocity Doppler signals; however, if set too high, it will remove important low‐velocity signals.

      For more information, the reader is referred to more detailed texts (Nyland et al. 2002; Evans et al. 1989) and the machine's technical support team.

      An alternate form of color flow Doppler, called power Doppler imaging (PDI), can be employed. Similar to color flow, this shows flow of fluid but at much lower velocities. The trade‐off is a lack of directionality. Blood flowing at 0.5 cm/sec away from the probe will have the same color signature as blood flowing at 0.5 cm/sec toward the probe. Consider using PDI for small vessels in POCUS studies such as the optic artery and vein

      Pearl: Color signatures are usually set up so that flow toward the probe is red and flow away from the probe is blue – remember “red is getting warmer and toward you” and “blue is away from you and getting colder” or that “away” and “blue” have the same number of letters.

      Pearl: Color flow Doppler is optimized by understanding its settings and their effect on the image: gain, pulse repetition frequency, and wall filter setting.

       Single Crystal Probes

      Single crystal probes emit a large bandwidth of sound beams instead of just one, thereby combining the benefits of high‐frequency resolution and low‐frequency penetration. The learning curve for imaging is generally quite different from that of traditional multicrystal ultrasound probes.

       Smartphone Applications

      At the time of this writing, there are several smartphone‐powered ultrasound devices approved by the Federal Drug Administration. Technology is advancing quickly and ultrasound machines may now be carried around in the healthcare provider's pocket. One must wonder what the future holds for the ease and availability of ultrasound imaging.

      Most ultrasound machines have some sort of body pattern that can be placed on the image with an icon to show the approximate location of the probe (see Chapter 2). Put all labels outside the image, too. Placing words across the image can potentially hide diagnostic information. If you must write across the ultrasound image, first save a picture of the unadulterated image and then save a second picture of the annotated image. Short (3–10 second) video clips can also be saved on most ultrasound machines.

      For recording ultrasound findings in medical records, see suggested goal‐directed templates in the respective chapters throughout the textbook.

Image described by caption and surrounding text.