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Sliding, rotating and sweeping Fanning and rocking Main probe direction Toward spine Gravity‐dependent pouches Lateral^a Left Right Fluid scoring No Yes Naming acoustic views External locations Target organs Timing of examination (median time presentation to ultrasound examination) Post resuscitation (median 1 hour) Presentation and serially post resuscitation (median <5 minutes)

^a Lateral recumbency was a brilliant proposition, being markedly safer than dorsal recumbency (see Figure 6.5).

      More recently, a human study showed that in people with prehospital hypotension, the only intervention that prevented the “crump factor,” the phenomenon of a patient decompensating unexpectedly, was the liberal use of FAST examinations (Bilello et al. 2011). The upshot is veterinarians have a better tool, the AFAST and its applied fluid scoring system, to determine within minutes of presentation or during hospitalized care when patients are becoming unstable, to not only “see” if the patient is positive or negative for free fluid, but also the degree of bleeding (or effusion) by easily calculating the patient's AFS (0–4 scale). AFAST and AFS are the missing link to traditional trauma, triage and tracking algorithms, and by adding the target organ approach, a huge amount of clinical information is easily gained within minutes, when minutes count.

The comparison of the original FAST to the subsequent AFAST study is fascinating and some important differences are noted (see Table 6.1) (Boysen et al. 2004; Lisciandro et al. 2009). Remarkably, degree of trauma was very similar, including numbers of pelvic fractures and pneumothoraces (Table 6.2), suggesting that the overall degree of trauma between studies was comparable and thus inferences may be loosely drawn (Boysen et al. 2004; Lisciandro et al. 2009).

      One involves the case management and decision making for blood transfusion(s), and that knowing if the dog at triage was AFS positive affected fluid therapy administration strategies. In other words, intravenous fluid resuscitation was likely titrated more closely to low normal endpoints, such as mean arterial pressure, thus mitigating exacerbation of hemorrhage by lessening the probability of “popping the clot” and diluting clotting factors through overresuscitation in bleeding dogs (Lisciandro et al. 2009). The differences in median time from trauma to FAST/AFAST, median time presentation to FAST/AFAST (240 versus <5 minutes), and numbers of transfusions FAST/AFAST (9 versus 3) support this conclusion. AFAST was performed as part of the physical exam versus FAST, which was a second line test after initial assessment, intravenous fluid resuscitation, and blind abdominocentesis possibly to the dog's detriment by the much higher positive rate (45% versus 27%).

      The original FAST study lacked a fluid scoring system, and as simple as the AFAST system is, with a range of 0–4 (AFS 0 negative all AFAST views to a maximum of four being positive for fluid at all four AFAST views), AFS provides an effective tool for decision making (see Table 7.3). This decision making, ranging from intravenous fluid resuscitation strategies to administration of blood transfusion products to the need for exploratory surgery, importantly carries the potential to improve outcome and decrease complications, as shown in people (see Chapter 7) (Blackbourne et al. 2004; Ollerton et al. 2006; Bilello et al. 2011).

Table 6.2. Comparison of FAST and AFAST in dogs.

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

Parameters	FAST (Boysen et al. 2004)	AFAST (Lisciandro et al. 2009)
Primary presentations	65%	96%
FAST positive cases	45%	27%
Low‐scoring (AFS 1 and 2) small‐volume bleeders	NA	13
High‐scoring (AFS 3 and 4) large‐volume bleeders	NA	14
Cases of abdominocentesis prior to AFAST/FAST examination	16	0
Median time trauma to AFAST/FAST examination	240 minutes	60 minutes
Median time presentation to AFAST/FAST examination	60 minutesFAST was a secondary evaluation post initial resuscitation	<5 minutesAFAST was a first‐line screening test
Median time for AFAST/FAST examination	6 minutesShaved sites	3 minutesNo shaving
Pelvic fractures	20	22
Pneumothorax	21	22
Appendicular fractures	15	25
Diaphragmatic hernia	NA	2
Number of blood transfusions	9	3

      Of note, dogs with pneumothorax (55%), pelvic fractures (40%), and high alanine transaminase (ALT) (>400 U/L) were also more likely to concurrently have or develop hemoabdomen detected by either their initial or serial AFAST examinations than dogs without these findings (Lisciandro et al. 2009; Lisciandro 2014c). The serial use of AFAST is helpful in determining the integrity of the urinary bladder, estimating urinary bladder volume and urine output during resuscitation (Lisciandro et al. 2009; Lisciandro 2011; Lisciandro and Fosgate 2017). Both FAST and AFAST studies documented that when the urinary bladder was imaged with an expected, smooth, rounded contour, it was unlikely to be ruptured, holding advantages over traditional means of palpation, characterization of urine post micturition, and plain radiography (Boysen et al. 2004; Lisciandro et al. 2009; Boysen and Lisciandro 2013).

More recently, a urinary bladder estimation formula for use during AFAST has been published and provides a noninvasive way to estimate urine output when serial calculations are made over time (Lisciandro and Fosgate 2017). AFAST additionally remains useful to survey for intrathoracic trauma, pleural and pericardial effusion, and lung conditions, through the acoustic window of the liver and gallbladder by imaging cranial to the diaphragm in every patient, dependent on patient size, coupled with depth limitations of the ultrasound

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