SAAG Calculator
Free Saagcalculator Calculator with medically-sourced formulas. Enter your measurements for personalized, accurate health insights.
Formula
SAAG = Serum Albumin - Ascitic Fluid Albumin
The SAAG is calculated by subtracting the ascitic fluid albumin concentration from the serum albumin concentration, both measured on the same day in g/dL. A SAAG >= 1.1 g/dL indicates portal hypertension with 97% accuracy. A SAAG < 1.1 g/dL indicates non-portal hypertensive causes.
Worked Examples
Example 1: Cirrhotic Ascites Assessment
Problem: A patient with known liver disease has serum albumin 3.2 g/dL, ascitic fluid albumin 0.8 g/dL, serum protein 6.5 g/dL, and ascitic fluid protein 1.5 g/dL. Calculate the SAAG.
Solution: SAAG = Serum Albumin - Ascitic Fluid Albumin\nSAAG = 3.2 - 0.8 = 2.4 g/dL\nSAAG >= 1.1 indicates portal hypertension\nAscitic fluid protein < 2.5 g/dL = transudative\nHigh SAAG + Low protein = Cirrhosis pattern\nProtein gradient = 6.5 - 1.5 = 5.0 g/dL
Result: SAAG = 2.4 g/dL (Portal Hypertension) | Most likely diagnosis: Cirrhosis
Example 2: Malignant Ascites Evaluation
Problem: A patient with ovarian cancer has serum albumin 3.0 g/dL, ascitic fluid albumin 2.2 g/dL, serum protein 6.0 g/dL, and ascitic fluid protein 4.0 g/dL. Calculate the SAAG.
Solution: SAAG = Serum Albumin - Ascitic Fluid Albumin\nSAAG = 3.0 - 2.2 = 0.8 g/dL\nSAAG < 1.1 indicates NON-portal hypertension\nAscitic fluid protein >= 2.5 g/dL = exudative\nLow SAAG + High protein = Peritoneal carcinomatosis pattern\nProtein gradient = 6.0 - 4.0 = 2.0 g/dL
Result: SAAG = 0.8 g/dL (Non-Portal HTN) | Most likely diagnosis: Peritoneal carcinomatosis
Frequently Asked Questions
What is the SAAG and what does it measure?
The Serum-Ascites Albumin Gradient (SAAG) is a laboratory calculation used to help determine the cause of ascites (fluid accumulation in the peritoneal cavity). It is calculated by subtracting the ascitic fluid albumin concentration from the serum albumin concentration measured on the same day. A SAAG of 1.1 g/dL or greater indicates portal hypertension as the cause of ascites with approximately 97 percent accuracy. This test has largely replaced the older exudate-transudate classification for ascites because it more directly reflects the pressure gradient between the portal venous system and the peritoneal cavity.
How is SAAG different from the exudate-transudate classification?
The older exudate-transudate classification used ascitic fluid total protein alone (with a cutoff of 2.5 g/dL) to classify ascites, but this approach had an accuracy of only 56 percent and frequently misclassified cardiac ascites and spontaneous bacterial peritonitis. The SAAG directly measures the oncotic-hydrostatic pressure balance across the peritoneal membrane and achieves 97 percent accuracy in identifying portal hypertension. SAAG is now the recommended first-line test for evaluating new-onset ascites according to the American Association for the Study of Liver Diseases (AASLD). The exudate-transudate system is still used alongside SAAG as the ascitic fluid protein level helps narrow the differential diagnosis further.
What conditions cause a high SAAG (portal hypertension)?
A SAAG of 1.1 g/dL or greater indicates portal hypertension and accounts for approximately 85 percent of all ascites cases. The most common cause is cirrhosis, which accounts for about 80 percent of all ascites in the Western world. Other causes of high SAAG ascites include alcoholic hepatitis, cardiac ascites from congestive heart failure, Budd-Chiari syndrome (hepatic vein thrombosis), portal vein thrombosis, sinusoidal obstruction syndrome (veno-occlusive disease), massive hepatic metastases, myxedema, and mixed ascites. Cardiac ascites typically has a high ascitic fluid protein (above 2.5 g/dL) despite the high SAAG, which helps distinguish it from cirrhotic ascites.
What is the role of SAAG in diagnosing spontaneous bacterial peritonitis?
Spontaneous bacterial peritonitis (SBP) is a common and life-threatening complication of cirrhotic ascites. While SAAG does not directly diagnose SBP, it establishes the underlying portal hypertension that predisposes to SBP. The diagnosis of SBP requires an ascitic fluid neutrophil count of 250 cells per cubic millimeter or greater, regardless of culture results. Importantly, SBP does not change the SAAG value because it does not alter the albumin gradient. Patients with cirrhotic ascites who have low ascitic fluid protein (below 1.5 g/dL) are at highest risk for SBP and may benefit from prophylactic antibiotics. The SAAG combined with cell count and culture provides a comprehensive ascites evaluation.
Can SAAG be affected by medications or medical treatments?
Several factors can affect SAAG accuracy and should be considered when interpreting results. Intravenous albumin infusions can temporarily increase serum albumin and falsely elevate the SAAG, so measurement should be performed before or at least 6 hours after albumin administration. Diuretic therapy can concentrate ascitic fluid and slightly alter the gradient. Severe hyperglobulinemia (as in multiple myeloma or autoimmune disease) can falsely reduce the SAAG by increasing non-albumin oncotic pressure in the serum. Large-volume paracentesis itself does not significantly affect the SAAG if measured before the procedure. These limitations highlight the importance of clinical context when interpreting SAAG results.
What additional tests should be ordered alongside SAAG?
A complete initial ascitic fluid analysis should include cell count with differential (to evaluate for SBP), total protein (to refine SAAG-based diagnosis), gram stain and culture (inoculated at bedside in blood culture bottles for best sensitivity), glucose, and LDH. Additional tests based on clinical suspicion include cytology for malignancy, adenosine deaminase for tuberculosis, amylase for pancreatic ascites, bilirubin for biliary ascites, and triglycerides for chylous ascites. Serum tests should include albumin, total protein, liver function tests, complete blood count, and coagulation studies. This comprehensive approach ensures that the cause of ascites is accurately identified.