J Korean Radiol Soc.  2003 Aug;49(2):99-105. 10.3348/jkrs.2003.49.2.99.

Standardization of MIP Technique in Three-dimensional CT Portography: Usefulness in Evaluation of Portosystemic Collaterals in Cirrhotic Patients

Affiliations
  • 1Department of Diagnostic Radiology, College of Medicine, Pusan National University. jwlee@pusan.ac.kr

Abstract

PURPOSE: To assess the usefulness of three-dimensional CT portography using a standardized maximum intensity projection (MIP) technique for the evaluation of portosystemic collaterals in cirrhotic patients.
MATERIALS AND METHODS
In 25 cirrhotic patients with portosystemic collaterals, three-phase CT using a multidetector-row helical CT scanner was performed to evaluate liver disease. Late arterial-phase images were transferred to an Advantage Windows 3.1 workstation (Gener Electric). Axial images were reconstructed by means of three-dimensional CT portography, using both a standardized and a non-standardized MIP technique, and the respective reconstruction times were determined. Three-dimensional CT portography with the standardized technique involved eight planes, namely the spleno-portal confluence axis (coronal, lordotic coronal, lordotic coronal RAO 30 degree, and lordotic coronal LAO 30 degree), the left renal vein axis (lordotic coronal), and axial MIP images (lower esophagus level, gastric fundus level and splenic hilum). The eight MIP images obtained in each case were interpreted by two radiologists, who reached a consensus in their evaluation. The portosystemic collaterals evaluated were as follows: left gastric vein dilatation; esophageal, paraesophageal, gastric, and splenic varix; paraumbilical vein dilatation; gastro-renal, spleno-renal, and gastrospleno-renal shunt; mesenteric, retroperitoneal, and omental collaterals.
RESULTS
The average reconstruction time using the non-standardized MIP technique was 11 minutes 23 seconds, and with the standardized technique, the time was 6 minutes 5 seconds. Three-dimensional CT portography with the standardized technique demonstrated left gastric vein dilatation (n=25), esophageal varix (n=18), paraesophageal varix (n=13), gastric varix (n=4), splenic varix (n=4), paraumbilical vein dilatation (n=4), gastro-renal shunt (n=3), spleno-renal shunt (n=3), and gastro-spleno-renal shunt (n=1). Using three-dimensional CT portography and the non-standardized MIP technique, the portosystemic collaterals demonstrated were similar to those demonstrated using the standardized technique. Additionally, howerer, the former revealed features not revealed by the latter, namely splenic varix (n=1), mesenteric collaterals (n=4), retroperitoneal collaterals (n=3), and omental collaterals (n=2).
CONCLUSION
In patients with liver desease, three-dimensional CT portography using a standardized of MIP technique helps evaluate portosystemic collaterals, reduces interobserver bias, and saves reconstruction time.

Keyword

Portography; Liver, cirrhosis; Computed tomography (CT), maximum intensity projection; Shunts, portosystemic

MeSH Terms

Axis, Cervical Vertebra
Bias (Epidemiology)
Consensus
Dilatation
Esophageal and Gastric Varices
Esophagus
Gastric Fundus
Humans
Liver
Liver Diseases
Portasystemic Shunt, Surgical
Portography*
Renal Veins
Tomography, Spiral Computed
Varicose Veins
Veins
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