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
Год издания: 0
isbn: 9781119461029
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artifacts at each AFAST view.

       Know the major pitfalls at each AFAST view.

       Know how to do a focused (POCUS) spleen examination and its importance following the completion of AFAST and after assigning an AFS.

       Understand why best practice would be to add on the Global FAST approach for all AFAST and POCUS exams (abdomen, thorax, eye, brain, musculoskeletal, etc.) to make sure that forms of peritonitis and pleuritis, presence of bleeding, and cardiac and pulmonary conditions are not being missed.

       Ultrasound Settings and Probe Preferences

       Standard abdominal settings, presets, with adequate depth to be able to visualize the target organs of each AFAST view.

       Curvilinear (microconvex) probe with a range of 5–10 MHz and a maximum depth of 12–15 cm is acceptable for most dogs and cats.

       Optimizing Image Quality and Probe–Skin Contact

      Hair is generally not shaved but rather parted for the best probe–skin contact with the use of isopropyl alcohol, and/or alcohol‐based hand sanitizer, and/or acoustic coupling gel. The author prefers the use of minimal amounts of isopropyl alcohol to effectively part the hair followed by alcohol‐based hand sanitizer. The strategy is much less noxious to your patient by minimizing the cold wetness of isopropyl alcohol and its fumes, especially when moved to an oxygen cage. Alcohol‐based hand sanitizer has the added benefit of being easily wiped off and it also evaporates quickly. Isopropyl alcohol should not be used if electrical defibrillation is anticipated because it poses a burn/fire hazard. The clinician should be aware that isopropyl alcohol may cause probe head damage (see Figure 4.13).

      Pearl: By not shaving (or limiting shaving to small acoustic windows), the cosmetic appearance of the patient is preserved (happier clients), the exam time is lessened, and imaging quality is sufficient with most newer ultrasound machines (median AFAST time <3–3.5 minutes) (Lisciandro et al. 2009; Lisciandro 2011, 2012; Boysen and Lisciandro 2013).

      Pearl: Maximize image quality by parting the hair and getting the probe head and its acoustic coupling medium in direct contact with the patient's skin to minimize air trapping, which is your imaging enemy because ultrasound does not transmit through air. Placing the probe head on a wetted mat of hair full of trapped air will produce a poor image (see Figures 5.1 and 5.2).

      Pearl: Hold the probe in a way that is most comfortable while being able to fan toward and away from the table top while maintaining a longitudinal (sagittal) plane in patients placed in lateral recumbency. Holding the probe like a pencil for many who have learned to scan patients in dorsal recumbency usually becomes problematic at the DH view for the caudal vena cava. Holding the probe on top and keeping the thumb on the probe marker and a finger out to prevent drifting works best.

       Patient Positioning

      Lateral Recumbency

       Image described by caption and surrounding text. Image described by caption and surrounding text.

      Source: Reproduced with permission of Dr Gregory Lisciandro, Hill Country Veterinary Specialists and FASTVet.com, Spicewood. TX. Illustration by Hannah M. Cole, Adkins, TX.

      Modified Lateral‐Sternal

      Standing/Sternal

      In respiratory‐compromised patients AFAST is performed in standing or sternal knowing that the fluid scoring system is not validated in this positioning but still provides clinical information regarding the presence or absence of effusion. Whatever the AFAST options for positioning (lateral, modified lateral‐sternal, standing/sternal), a negative AFS negates the need for moving the patient to lateral recumbency. Serial exams are always mandated as standard of care for a second opportunity to detect negative AFAST changing to positive, and for rescoring the patient (Lisciandro et al. 2009; Lisciandro 2011, 2014a; Boysen and Lisciandro 2013). See Chapters 36 and 37 for the most efficient ways to perform AFAST in standing‐sternal positioning.

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