Dual-energy CT iodine overlay technique for characterization of renal masses as cyst or solid: a phantom feasibility study

The aim of this study was to assess the ability of dual-energy computed tomography (DECT) to classify phantom renal lesions as cysts or enhancing masses. Six cylinders ranging in diameter from 0.5 to 3.0 cm were filled with distilled water or titrated iodinated contrast solutions with CT attenuation values at 120 kVp of 0 Hounsfield units (HU) for a cyst proxy or 10, 20, or 40 HU to represent enhancing masses. These were placed in a 12-cm-diameter renal phantom containing puréed beef mixed with iodinated contrast medium to simulate enhancing renal parenchyma of 100 and 250 HU and submerged within a 28-cm water bath. These combinations produced 48 individual phantom renal lesions of differing sizes, internal and parenchymal enhancement (12 cysts and 36 enhancing masses). DECT using 80 and 140 kVp was performed on a dual-source CT scanner. Commercial software created a color-encoded overlay indicating the location of iodine within the phantom. The lesions were individually graded as a cyst or enhancing mass by blinded, consensus interpretation of two genitourinary radiologists. Thirty-five of 36 enhancing masses and 10/12 cysts were correctly identified, equating to a sensitivity and specificity of 97% (95% CI 84–100%) and 83% (95% CI 51–97%), respectively. All lesions of 20- and 40-HU enhancement and 92% of 10-HU lesions were identified correctly. In a phantom model, the DECT iodine overlay technique is highly sensitive in detecting enhancing renal masses. Refinement of the technique remains necessary to improve specificity. If validated in patients, this may obviate the need for unenhanced acquisitions for renal mass characterization.

[1]  Ying Lu,et al.  Distinction of renal cell carcinomas from high-attenuation renal cysts at portal venous phase contrast-enhanced CT. , 2003, Radiology.

[2]  J. Cadeddu,et al.  Histopathology of surgically managed renal tumors: analysis of a contemporary series. , 2003, Urology.

[3]  Goldman Sm Dual-phase helical CT of the kidney: value of the corticomedullary and nephrographic phase for evaluation of renal lesions and preoperative staging of renal cell carcinoma. , 1998 .

[4]  A. Fisher,et al.  Interobserver variability in determining enhancement of renal masses on helical CT. , 1999, AJR. American journal of roentgenology.

[5]  M. Jinzaki,et al.  Double-Phase Helical CT of Small Renal Parenchymal Neoplasms: Correlation with Pathologic Findings and Tumor Angiogenesis , 2000, Journal of computer assisted tomography.

[6]  D. DeLong,et al.  Pseudoenhancement of Simple Renal Cysts: A Comparison of Single and Multidetector Helical CT , 2002, Journal of computer assisted tomography.

[7]  C. McCollough,et al.  CT dose reduction and dose management tools: overview of available options. , 2006, Radiographics : a review publication of the Radiological Society of North America, Inc.

[8]  F. Kondylis,et al.  The natural history of incidentally detected small renal masses , 2004, Cancer.

[9]  N. Obuchowski,et al.  Analysis of changes in attenuation of proven renal cysts on different scanning phases of triphasic MDCT. , 2004, AJR. American journal of roentgenology.

[10]  M. Macari,et al.  Delayed CT to evaluate renal masses incidentally discovered at contrast-enhanced CT: demonstration of vascularity with deenhancement. , 1999, Radiology.

[11]  Borut Marincek,et al.  Dual-Energy Contrast-Enhanced Computed Tomography for the Detection of Urinary Stone Disease , 2007, Investigative radiology.

[12]  W D McDavid,et al.  Extraction of information from CT scans at different energies. , 1979, Medical physics.

[13]  C. McCollough,et al.  Dual-energy CT iodine-subtraction virtual unenhanced technique to detect urinary stones in an iodine-filled collecting system: a phantom study. , 2008, AJR. American journal of roentgenology.

[14]  James S Babb,et al.  Renal cyst pseudoenhancement: evaluation with an anthropomorphic body CT phantom. , 2002, Radiology.

[15]  M. Macari,et al.  Dual energy CT: preliminary observations and potential clinical applications in the abdomen , 2008, European Radiology.

[16]  M. Reiser,et al.  Material differentiation by dual energy CT: initial experience , 2007, European Radiology.

[17]  R C Nelson,et al.  Evaluation of pseudoenhancement of renal cysts during contrast-enhanced CT. , 2000, AJR. American journal of roentgenology.

[18]  G. Israel,et al.  How I do it: evaluating renal masses. , 2005, Radiology.