Adrenal masses: characterization with in vivo proton MR spectroscopy--initial experience

Adrenal masses: characterization with in vivo proton MR spectroscopy--initial experience

To prospectively determine the accuracy of in vivo proton ((1)H) magnetic resonance (MR) spectroscopy in distinguishing adrenal adenomas, pheochromocytomas, adrenocortical carcinomas, and metastases, with histologic or computed tomographic findings and follow-up data as the reference standards. This...

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Bibliographic Details
Published in:Radiology Vol. 245; no. 3; p. 788
Main Authors: Faria, Juliano F, Goldman, Suzan M, Szejnfeld, Jacob, Melo, Homero, Kater, Cláudio, Kenney, Philip, Huayllas, Martha P, Demarchi, Guilherme, Francisco, Viviane V, Andreoni, Cássio, Srougi, Miguel, Ortiz, Valdemar, Abdalla, Nitamar
Format: Journal Article
Language:English
Published: United States 01-12-2007
Subjects:
Adenoma - diagnosis
Adenoma - metabolism
Adrenal Gland Neoplasms - diagnosis
Adrenal Gland Neoplasms - metabolism
Adrenal Gland Neoplasms - secondary
Adrenocortical Carcinoma - diagnosis
Adrenocortical Carcinoma - metabolism
Adult
Diagnosis, Differential
Female
Humans
Magnetic Resonance Spectroscopy
Male
Middle Aged
Pheochromocytoma - diagnosis
Pheochromocytoma - metabolism
Prospective Studies
Reproducibility of Results
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Summary:To prospectively determine the accuracy of in vivo proton ((1)H) magnetic resonance (MR) spectroscopy in distinguishing adrenal adenomas, pheochromocytomas, adrenocortical carcinomas, and metastases, with histologic or computed tomographic findings and follow-up data as the reference standards. This study was approved by the institutional ethics committee, and informed consent was obtained. Sixty consecutive patients (24 male and 36 female patients; mean age, 53 years) harboring adrenal tumors larger than 2 cm in diameter (mean diameter, 4.6 cm +/- 3.4 [standard deviation]) entered the study and were examined with a 1.5-T MR imaging system and point-resolved multivoxel (1)H MR spectroscopy. Thirty-eight patients had adenomas; 10, pheochromocytomas; five, carcinomas; and seven, metastases. Amplitude values for choline, creatine, lipid, and a metabolite peak at precession frequency of 4.0-4.3 ppm were measured. Metabolite ratios (choline-creatine, choline-lipid, lipid-creatine, and 4.0-4.3 ppm/creatine) and cutoff values (obtained by using receiver operating characteristic analyses) were obtained and compared for each type of adrenal mass, which was identified previously on the basis of clinical, hormonal, and pathologic evidence. Results were evaluated with chi(2) and Student t tests. Significance was inferred at P < .05. Cutoff values of 1.20 for the choline-creatine ratio (92% sensitivity, 96% specificity; P < .01), 0.38 for the choline-lipid ratio (92% sensitivity, 90% specificity; P < .01), and 2.10 for the lipid-creatine ratio (45% sensitivity, 100% specificity) enabled adenomas and pheochromocytomas to be distinguished from carcinomas and metastases. A 4.0-4.3 ppm/creatine ratio greater than 1.50 enabled distinction of pheochromocytomas and carcinomas from adenomas and metastases (87% sensitivity, 98% specificity; P < .01). The best distinction was obtained by comparing choline-creatine and 4.0-4.3 ppm/creatine ratios. (1)H MR spectroscopy can be used to characterize adrenal masses on the basis of spectral findings for benign adenomas, carcinomas, pheochromocytomas, and metastases.
ISSN:1527-1315
DOI:10.1148/radiol.2453061854