to image and interrogate the urinary bladder, which is expected to fill with urine during fluid resuscitation, and if the urinary bladder is not seen then interventional and therapeutic decisions are made depending on the patient.
Urine production may be estimated using our AFAST CC formula of length (cm) × width (cm) × height (cm) × 0.625 = estimation of urinary bladder volume in milliliters (Lisciandro and Fosgate 2017). With serial measurements over time, urine output may be estimated. Excessive probe pressure will distort the urinary bladder, leading to erroneous measurements.
Figure 6.23. The CC view in a dog. In (A) the direction of the probe is shown externally dorsal to midline and directed toward the tabletop, or the most gravity‐dependent region of the view. In (B) is a similar image with anatomy overlay that correlates to the CT image. The urine‐filled urinary bladder serves as a recognizable landmark for the CC view and for identifying the “CC pouch” where the urinary bladder and body wall in its most gravity‐dependent region are next to one another (curved line) as this is where free fluid would pocket. The thigh is often in view through the far‐field and is screen right in (D–F). Computed tomography 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.
The striated rounded soft tissue structure through the far‐field is often the patient's opposing thigh (“imaging ham”) and not a mass. The rounded anechoic circular structures in between the urinary bladder and the thigh are often appreciated and represent the femoral artery and vein (Figure 6.25; see also Figures 6.23 and 25.8). The compression technique can determine which is the vein and which the artery in addition to the use of color flow Doppler (see Chapter 25).
Pearl: In blunt trauma dogs, the probability of hemoabdomen to uroabdomen has been documented in separate veterinary studies to be ~98% to ~2–4%, respectively (Boysen et al. 2004; Lisciandro et al. 2009; Simpson et al. 2009; Hoffberg et al. 2016; Grimes et al. 2018). Thus, in most canine blunt trauma cases in which the urinary bladder is not visualized, the serial AFAST examination provides a second opportunity to evaluate for the integrity of an intact urinary bladder with its expected rounded contour (Lisciandro et al. 2009). In its absence, radiography, abdominal fluid sampling and analysis, such as comparative abdominal fluid to serum creatinine, or other more advanced imaging procedures should be considered.
Pearl: In cats with large‐volume effusion that survive blunt trauma, the probability of a uroabdomen is much higher than a hemoabdomen because cats generally don't survive large‐volume bleeds like dogs do.
Typical CC View Positives
The classic CC positive view with a small‐volume effusion has a small anechoic (black) triangle in the “CC pouch,” between the urinary bladder apex and the body wall in the most gravity‐dependent region (see Figure 6.25). Large‐volume positives are usually easy to see in real time with the wafting movement of small intestines and omentum. Urinary bladder pathology such as sediment and calculi is most commonly going to be in the same most gravity‐dependent view of the “CC pouch.” When a mass effect is found in the urinary bladder, the best way to differentiate a thrombus from a mass is by using color flow Doppler, with a thrombus (and artifact) with no flow versus a mass with pulsatile blood flow.
Pearl: When a urinary bladder mass is found, differentiate through the use of color flow Doppler, with a thrombus having no flow versus a mass that will have pulsatile blood flow.
Artifacts
The most relevant CC view artifacts are described below (see Figure 6.26). More detail is provided in Chapter 3.
Acoustic Enhancement Artifact
The fluid‐filled urinary bladder will make the soft tissue distal through it brighter (more echogenic), similar to what occurs with the gallbladder at the DH view. With the recommended probe positioning, the body wall will be brighter in the far‐field in the “CC pouch” because of this artifact and readily seen along the body wall in the far‐field deep to the urinary bladder.
Mirror Image Artifact
The mirror image artifact requires a strong soft tissue–air interface and is most commonly observed at the DH view, the CC view (bladder mirrored on the far side of the abdominal wall) and during echo views (heart mirrored on the far side of the pericardium).
Side‐lobe and Slice‐thickness Artifact
These artifacts mimic sediment and the author has even received images suggesting this artifact was a mass. Think about the artifact in terms of gravity dependency because sediment and calculi will settle into the bladder lumen and be best viewed within the “CC pouch.” Lowering the gain eliminates the artifact whereas true sediment persists, and color Doppler can assess for flow (no flow = either artifact or thrombus versus flow = a mass).
Probe Pressure Artifact
The sonographer should always be aware of the effects of probe pressure on the image. The urinary bladder is susceptible to probe pressure artifact creating misshapen appearances.
Reverberation and Dirty Shadowing Artifact
An overlying air‐filled colon will obscure the far‐field, making the bladder appear in odd shapes, and if colon or small bowel gets under the bladder, either may be mistaken for sediment, calculi, and masses (see Figure 6.27) (see Chapters 3 and 11). It is a good habit to check where the probe and the beam (the scanning plane) are directed to help interpret your image (see Chapter 5).
Pearl: Change the position of the probe and alter the pressure of the probe on the patient (both a little more and a little less) to coax the colon out of your way or sweep toward midline while imaging in the “CC pouch” to get away from the air‐filled colon.
False Positives
False positives are generally not a problem at the CC view when directing the probe into the “CC pouch,” the most gravity‐dependent region between the urinary bladder and the body wall in the far‐field. The great vessels are in the opposite direction, located sublumbar, which is not an imaging
