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All AFAST acoustic views are imaged in longitudinal (sagittal) orientation with the marker of the probe always directed toward the head of the patient; with muscle memory, most sonographers quickly learn this repetitive probe motion. In longitudinal (sagittal) orientation target organs are more recognizable than in transverse orientation, especially for the nonradiologist sonographer (Figure 6.7). The single longitudinal (sagittal) orientation is supported by the original veterinary FAST study in which when longitudinal (sagittal) and transverse orientation were compared, they matched in 397 out of 400 views (Boysen et al. 2004). In time, rotating the probe to transverse orientation may be considered as part of each AFAST view as an add‐on skill but is unnecessary.

Figure 6.5. Never use dorsal recumbency without doing a Global FAST to assess stability. The use of dorsal recumbency on a hemodynamically fragile or unstable patient is potentially catastrophic. In (A) the computed tomography (CT) of a cross‐section of the thorax and abdomen is is compared to (B) in dorsal recumbency. Ventilation is changed from (A) to (B) by moving the most aerated, least perfused, least gravity‐dependent lung fields to a ventral and gravity‐dependent location. Moreover, the weight of the abdominal organs against the diaphragm further adversely affects ventilation. Venous return to the heart is also markedly changed from (A) to (B) in which the CVC (blue circle) next to the aorta (red circle) becomes compressed in dorsal recumbency from the weight of the abdominal organs. In hemodynamically fragile patients, there is real risk for decompensation.

Source: Reproduced with permission of Dr Gregory Lisciandro, Hill Country Veterinary Specialists and FASTVet.com, Spicewood, TX.

Every AFAST view is a “fan, rock cranially, and return to your starting position” of the probe by fanning through the target organ, rocking cranially, and then returning to your starting point (see Figures 6.2, 6.3, and 6.4).

 DH view: Fan through the gallbladder in both directions until the gallbladder disappears in both directions, and then rock cranially to image the “cardiac bump” before returning to your starting point for one final look within the abdominal cavity.

 SR view: Fan through the left kidney in both directions until the left kidney disappears in both directions, and then rock cranially to image the head of the spleen (fan on it too) before returning to your starting point of the left kidney for one final look. The kidney is retroperitoneal and the spleen peritoneal. The head of the spleen is reliably imaged in both dogs and cats.Figure 6.6. Correlation of AFAST acoustic windows with a dog in right lateral recumbency to an abdominal radiograph and CT. Sites are named by their target organs. In (A) the AFAST acoustic windows are labeled and correlate in (B) to a radiograph and (C) to computed tomography. The AFAST order is always the same: DH to SR to CC to HRU view. Note that the head is always to the left and tail to the right in both ultrasound and radiography. Computed tomography and radiograph courtesy of Dr Daniel Rodriguez, VETTEM, and Dr Jesús Paredes, CVM, Mexico City, Mexico.Source: Reproduced with permission of Dr Gregory Lisciandro, Hill Country Veterinary Specialists and FASTVet.com, Spicewood, TX.Figure 6.7. Longitudinal orientation for AFAST. (A) Kidney in longitudinal orientation, standard for all the AFAST views, because organs are more readily apparent in longitudinal over transverse scanning planes for most nonradiologist sonographers. (B) The same kidney as in (A) but in transverse orientation. The author keeps it simple – “fan (longitudinal planes), rock (direct the scanning plane cranial) and return to your starting point” is the AFAST mantra. Transverse orientation should be considered as an add‐on AFAST skill but is unnecessary for the detection of free intraabdominal fluid (Boysen et al. 2004). Computed tomography courtesy of Dr Daniel Rodriguez, VETTEM, Mexico City, Mexico.Source: Reproduced with permission of Dr Gregory Lisciandro, Hill Country Veterinary Specialists and FASTVet.com, Spicewood, TX.

 CC view: Fan through the urinary bladder in both directions until the bladder disappears in both directions, and then rock cranially to image the “CC pouch”, its most gravity‐dependent region, and back to your starting point for one final look.

 HRU view (right lateral recumbency): Fan through the small bowel and spleen in both directions and then rock cranially to image the cranial abdominal region before returning to the “HRU pouch”, its most gravity‐dependent region, for one final look. The left kidney may be viewed with increased depth through a single HR view, especially in cats and smaller dogs (Lisciandro 2014a; McMurray et al. 2016).

 SRU view (left lateral recumbency): Fan through the small bowel and spleen in both directions and then rock cranially to image the cranial abdominal region before returning to the “SRU pouch”, its most gravity‐dependent region, for one final look. The right kidney may be viewed with increased depth through a single SR view, especially in cats and smaller dogs (Lisciandro 2014a).

 HR5th bonus view (right lateral recumbency): Fan through the right kidney in both directions until the right kidney disappears in both directions and then rock cranially to image the right liver lobes before returning to your starting point of the right kidney for one final look. This view is generally unnecessary if the right kidney is imaged through the SR view.

 SR5th bonus view (left lateral recumbency): Fan through the left kidney in both directions until the left kidney disappears in both directions and then rock cranially to image the spleen before returning to your starting point of the left kidney for one final look. This view is generally unnecessary if the left kidney is imaged through the HR view.

Pearl: For both those learning AFAST and experienced AFAST sonographers, only longitudinal (sagittal) orientation is necessary for the detection of free fluid at each view, with this standardization accelerating the learning process by building consistent sonographic expectations of the AFAST target organs. In time, transverse orientation may become an add‐on skill but it is unnecessary.