Mayumi Takeuchi1, Kenji Matsuzaki, Masafumi Harada. 1. Department of Radiology, University of Tokushima, 3-18-15, Kuramoto-cho, Tokushima 7708503, Japan. mayumi@clin.med.tokushima-u.ac.jp
Abstract
OBJECTIVE: To retrospectively evaluate the clinical significance of N-acetyl resonances at 2 ppm in in-vivo proton magnetic resonance (MR) spectroscopy for distinguishing mucinous and non-mucinous tumours in patients with ovarian masses. METHODS: MR spectroscopy was performed in patients with pathologically diagnosed ovarian tumours at 3T-MR imaging. Single-voxel MR spectroscopy data were collected from a single square volume of interest that encompassed the ovarian masses. The metabolite resonance peak areas at 2 ppm were quantified relative to unsuppressed water using a software package (LCModel). RESULTS: A total of 32 ovarian lesions in 32 patients were evaluated in this study. High metabolite peak at 2 ppm was observed in all nine mucinous tumours (9.71 +/- 7.46 mM), whereas low peak was observed in 14 of 23 non-mucinous tumours (3.12 +/- 1.42 mM) (p < 0.001). Using a cut off value of 4.45 mM for mucinous tumours had a sensitivity of 89%, specificity of 86%, PPV of 80%, and NPV of 92%. CONCLUSION: Proton MR spectroscopy with quantitative evaluation of the metabolite at 2 ppm concentration, which may suggest the presence of mucinous material containing N-acetyl mucinous compounds, can provide helpful information in distinguishing mucinous and non-mucinous ovarian tumours. Key Points • MR spectroscopy helps distinguish mucinous from non-mucinous ovarian tumours. • High N-acetyl resonance at 2 ppm is observed in ovarian mucinous tumours. • Thus MR spectroscopy could improve management of these patients.
OBJECTIVE: To retrospectively evaluate the clinical significance of N-acetyl resonances at 2 ppm in in-vivo proton magnetic resonance (MR) spectroscopy for distinguishing mucinous and non-mucinous tumours in patients with ovarian masses. METHODS: MR spectroscopy was performed in patients with pathologically diagnosed ovarian tumours at 3T-MR imaging. Single-voxel MR spectroscopy data were collected from a single square volume of interest that encompassed the ovarian masses. The metabolite resonance peak areas at 2 ppm were quantified relative to unsuppressed water using a software package (LCModel). RESULTS: A total of 32 ovarian lesions in 32 patients were evaluated in this study. High metabolite peak at 2 ppm was observed in all nine mucinous tumours (9.71 +/- 7.46 mM), whereas low peak was observed in 14 of 23 non-mucinous tumours (3.12 +/- 1.42 mM) (p < 0.001). Using a cut off value of 4.45 mM for mucinous tumours had a sensitivity of 89%, specificity of 86%, PPV of 80%, and NPV of 92%. CONCLUSION: Proton MR spectroscopy with quantitative evaluation of the metabolite at 2 ppm concentration, which may suggest the presence of mucinous material containing N-acetyl mucinous compounds, can provide helpful information in distinguishing mucinous and non-mucinous ovarian tumours. Key Points • MR spectroscopy helps distinguish mucinous from non-mucinous ovarian tumours. • High N-acetyl resonance at 2 ppm is observed in ovarian mucinous tumours. • Thus MR spectroscopy could improve management of these patients.
Authors: Juyoung A Jung; Fergus V Coakley; Daniel B Vigneron; Mark G Swanson; Aliya Qayyum; Vivian Weinberg; Kirk D Jones; Peter R Carroll; John Kurhanewicz Journal: Radiology Date: 2004-12 Impact factor: 11.105
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Authors: Pietro Valerio Foti; Giancarlo Attinà; Saveria Spadola; Rosario Caltabiano; Renato Farina; Stefano Palmucci; Giuseppe Zarbo; Rosario Zarbo; Maria D'Arrigo; Pietro Milone; Giovanni Carlo Ettorre Journal: Insights Imaging Date: 2015-12-16