AFAST Limitations for Intrapelvic Bleeding
People with femoral and pelvic fractures can lose 50–75% of their blood volume at the fracture site, respectively (Coccolini et al. 2017). In dogs and cats, this is uncommon but does occur and should be considered in anemic cases in which the source of the large volume of blood loss is inapparent (Lisciandro 2012). Importantly, FAST has been shown to perform poorly for detecting intrapelvic bleeding and the AFAST sonographer should consider this limitation. Through an understanding of ultrasound and imaging of soft and hard musculoskeletal tissues, however, it seems possible that large blood clots and hemorrhage could potentially be detected at fracture sites through the combined use of B‐mode and color flow Doppler (see Chapters 34 and 35).
Use of the AFAST AFS System as an Exit Exam Postintervention
Physical examination, laboratory testing, and radiography are insensitive and unreliable tests for the presence of free fluid in small animals (Rozycki 1998; Rozycki et al. 1998, 2001; Boysen et al. 2004; Lisciandro et al. 2009; Lisciandro 2012; Boysen and Lisciandro 2013; McMurray 2016), and there is no reason to think that this would be different for postinterventional cases. After any invasive procedure that places your patient at risk for bleeding, the AFAST and its applied fluid scoring system should be used as standard of care. By having an AFAST and AFS documented pre‐ and postinterventionally (or, even better, the Global FAST approach – see Chapters 36 and 37), during follow‐up examinations the continued use of AFAST and AFS (Global FAST) may help to detect complications earlier in their course.
The value of the FAST approach for postinterventional monitoring has clearly been shown in people (Rozycki 1998; Rozycki et al. 1998, 2001). Initial and serial AFAST with an AFS will help survey for ongoing bleeders. In addition, the technique aids in the detection of “large‐volume bleeders” and may allow the clinician to have a higher index of suspicion for the possibility of overt clinical decompensation than would be possible by waiting on less sensitive traditional indicators such as packed cell volume and vital signs (Rozycki 1998; Bilello et al. 2010). In humans, it is well known that patients can compensate and fool physicians with unremarkable vital signs, mucous membrane color, heart rate, and pulse quality even with an acute loss of 30% of their blood volume (Muir 2006). Dogs are likely more able to compensate due to the blood reservoir provided through splenic contraction. We recommend performing AFAST and assigning an AFS postoperatively and then again as part of daily rounds and/or as part of the patient's exit exam prior to patient discharge. See information on drying the abdomen in a preceding section.
Use of the AFAST AFS System in Nonhemorrhagic Effusions
Patients may become hypovolemic from nonhemorrhagic cavitary effusions and effusions within the retroperitoneal space. Analogous to the hypovolemic bleeding patient, nonhemorrhagic effusions are similarly categorized using the AFS system as “small‐volume effusion” (AFS 1 and 2 or with the modified AFS system <3) versus “large‐volume effusion” (AFS 3 and 4 or with the modified AFS system ≥3). The use of Global FAST helps detect effusions in these three major reservoir cavities and spaces that often are overlooked until effusions are advanced without ultrasound, radiography, and CT. The other two areas surveyed are the smaller reservoirs of the pericardial sac and lung (B‐lines). Smaller in that generally a patient cannot tolerate large volumes of pericardial effusion (heart fails) or many B‐lines representing alveolar‐interstitial edema (lungs fail). Global FAST should be routinely used in all volume‐depleted patients, as is advocated in human medicine (RUSH exam) (Perera et al. 2010), and discussed in more detail in Chapters 36 and 37.
Clinical Examples
An example of the manner in which AFAST with an AFS works in nontrauma monitoring is for the patient with pancreatitis that on day 1 has an AFS of 1 without any AFAST target organ abnormalities. The following day, the Global FAST approach is used, and the AFS has increased to 3. Moreover, Global FAST further evaluates for effusions using TFAST, volume status, and any lung complications using Vet BLUE, and no additional effusions other than the ascites are found. This is significant patient information because likely the disease process is worsening. The finding of an increase from AFS 1 to 3 dictates a more aggressively diagnostic and therapeutic pursuit. Without this approach as an extension of the physical exam, these changes are often missed until the complications advance even more and the patient becomes overtly clinical. In contrast, the following day the AFS has decreased to 0, likely reflecting a positive response to therapy, important information for the clinician as well as the client.
Additional practical Global FAST examples would include cases with right‐sided congestive heart (CHF) and making decisions on whether the patient requires therapeutic abdominocentesis as well as tracking ascites using the AFS for response to CHF therapy; and the use of the AFS postoperatively in vomiting septic abdomen cases to screen for abdominal‐related complications, including effusions and ileus or dehiscence, or thoracic‐related complications such as aspiration pneumonia or myocardial dysfunction, and so forth. The Global FAST approach screens these systems as part of its standardized protocol.
The use of AFAST and AFS in Dehydrated and Hypovolemic Patients
These subsets of veterinary patients often have no ultrasonographically visible free fluid until after they are resuscitated and rehydrated. In the dehydrated patient with a bowel perforation, the omentum is often adhered to the defect, with the resorption (recruitment) of any available free water from the abdominal cavity. Thus, the serious lesion (same for a “small‐volume bleed” from a mass) is not producing substantial free fluid until after rehydration and resuscitation. We use the mantra “Rehydrate, resuscitate, reevaluate with a minimum of at least one additional serial AFAST and AFS” within the next 2–4 hours. In humans with possible bowel injury, serial ultrasound examinations are recommended out to 12‐24 hours post‐admission (Mohammadi and Ghasemi‐Rad 2012) (Figure 7.9).
Pearl: Serial AFAST exams increase sensitivity in detecting peritonitis and “small‐volume bleed” suspects and should be performed four hours post admission, and again after resuscitation and rehydration. If the patient has not declared itself overtly surgical but remains a candidate, AFAST and AFS should be used serially for at least 12–24 hours and longer if patient status is questionable.
Use of AFAST for Canine Anaphylaxis
Gallbladder Wall Edema – Sonographic Striation
In 2009, the clinical utility of using point‐of‐care ultrasound for the rapid diagnosis of canine anaphylaxis (AX) was shown to be clinically helpful. Since the shock organ in dogs is the liver and