Use the curvilinear probe (3.5–5 MHz). The larger footprint and lower frequency penetrate the abdomen better than a phased-array probe.

Scan order (matches the FUSIC Abdomen reporting form):

• RUQ — diaphragm, liver, Morrison’s pouch
• LUQ — diaphragm, spleen, splenorenal recess
• Right kidney — size, cortex, hydronephrosis grading
• Left kidney — size, cortex, hydronephrosis grading
• Bladder/pelvis — volume, free fluid in pelvis

Probe in right midaxillary line, 8th–9th ICS, marker to head. Fan anterior and posterior to cover the full right lobe.

Diaphragm: Bright curvilinear structure above the liver. Mirror artefact (liver echoes appearing above diaphragm) = normal. True structures visible above diaphragm (no mirror effect) = pleural effusion or consolidated lung.

Liver parenchyma: Normal = homogeneous, slightly more echogenic than renal cortex. Hyperechoic (bright) = fatty infiltration. Flag focal masses for further imaging — not a FUSIC Abdomen competency to characterise.

Morrison’s pouch: The hepatorenal space — between the inferior right lobe and upper pole of the right kidney. The most dependent part of the peritoneal cavity in a supine patient. Free fluid collects here first. Any echo-free stripe between liver and kidney = free fluid.

Place probe in left posterior axillary line, 8th–9th ICS, marker to head. This is the most posterior window — rolling the patient into right lateral decubitus helps significantly.

What to assess:

• Left diaphragm: Same as right side.
• Spleen: Homogeneous, moderately echogenic, crescent-shaped. Long axis >13 cm = splenomegaly.
• Splenorenal recess: Between inferior pole of spleen and upper pole of left kidney. Less dependent than Morrison’s — free fluid here suggests significant volume.

Image each kidney in long axis. Normal: 9–12 cm long, smooth outline, echogenic central sinus, hypoechoic cortex. Measure the long axis for the logbook.

Cortical echogenicity: Normal = less echogenic than adjacent liver/spleen. Equal to or brighter than liver = parenchymal disease.

Place probe suprapubically, just above symphysis pubis. Bladder = echo-free rounded pelvic structure.

Bladder volume: Volume = 0.52 × L × W × H. Report as: Not seen / Small / Large.

Full stomach identification: Stomach lies superolateral to the bladder. Full stomach = echogenic contents or fluid level with “snowstorm” appearance. Important for anaesthetic risk assessment.

Prostate/cervix: Prostate = rounded echogenic structure behind bladder base (men). Uterus = oval structure posterior to bladder (women). Identifying these distinguishes normal pelvic anatomy from masses.

Pelvic free fluid: Collects in Pouch of Douglas (women) or rectovesical pouch (men) — posterior to bladder. Echo-free space surrounding uterus or posterior to bladder = free fluid.

Free fluid conforms to spaces between organs, is echo-free (or echogenic if bloody/proteinaceous), and bowel floats centrally within it.

Distinguishing free fluid from bowel: Free fluid doesn’t peristalse and is truly compressible (displaces with pressure). Bowel bounces back and may peristalse.

Guided paracentesis site selection:

• Identify the deepest pool of ascites away from bowel and major vessels
• Use colour Doppler to check for vessels at the proposed insertion point — inferior epigastric artery runs medially; always stay lateral to the rectus abdominis
• Measure the distance from skin to fluid
• Mark the site with the patient in the drainage position

• Bowel gas: Causes acoustic shadowing and ring-down artefacts. Apply gentle pressure, or wait for peristalsis to displace gas.
• Post-operative abdomen: Adhesions, dressings, and surgical emphysema compromise views. Scan around the edges.
• Posterior acoustic enhancement behind bladder: Bright area behind bladder — normal (fluid lens effect). Not pathology.
• Confusing perirenal fat for collection: Fat is echogenic; a true collection is anechoic. Scan in multiple planes.
• Missing full stomach: Gastric emptying is delayed in ICU patients. Always assess the stomach before procedures.