3-T MRI: usefulness for evaluating primary lung cancer and small nodules in lobes not containing primary tumors.

OBJECTIVE The purpose of this study was to evaluate the diagnostic performance of 3-T MRI in the detection and characterization of primary non-small cell lung cancer and of small nodules in lobes not containing primary tumors. MATERIALS AND METHODS From July 2005 to May 2006, 127 patients (99 men, 28 women; mean age, 63 years) with histopathologically proven non-small cell lung cancer underwent both CT and MRI of the chest. Transverse MR images were obtained with T1-weighted 3D turbo field-echo and T2-weighted triple inversion black blood turbo spin-echo sequences on a 3-T MRI system. Two chest radiologists assessed CT images and then MR images. The morphologic features of lung cancer and the detectability of small nodules in lobes not containing primary tumors on MR images were compared with the findings on CT images, which were the reference standard. RESULTS The morphologic characteristics of primary cancer found on both T1- and T2-weighted images corresponded to those on CT images. The overall rates of detection of nodules in lobes not containing primary tumors were 57% (184 of 323 nodules) and 56% (180 of 323 nodules) on T1- and T2-weighted images, respectively (p = 0.64). In terms of detection of non-calcified nodules 5-10 mm in diameter, both T1- and T2-weighted images had a detection rate of 92% (48 of 52 nodules) (p = 1.00). CONCLUSION Both T1-weighted 3D turbo field-echo and T2-weighted triple inversion black blood turbo spin-echo 3-T MR images depict clinically significant small (5-10 mm in diameter) noncalcified pulmonary nodules nearly as well as do CT scans.

[1]  Y. Ohno,et al.  Metastases in mediastinal and hilar lymph nodes in patients with non-small cell lung cancer: quantitative and qualitative assessment with STIR turbo spin-echo MR imaging. , 2004, Radiology.

[2]  M. Javitt,et al.  MRI of an atypical bright MR signal of a calcified pulmonary nodule. , 1994, Journal of computer assisted tomography.

[3]  Bennett Bm On comparisons of sensitivity, specificity and predictive value of a number of diagnostic procedures. , 1972 .

[4]  H. Kauczor,et al.  Contrast-enhanced MRI of the lung. , 2000, European journal of radiology.

[5]  W. Kersjes,et al.  Diagnosis of pulmonary metastases with turbo-SE MR imaging , 1997, European Radiology.

[6]  S. Tomiguchi,et al.  MR imaging of focal lung lesions: Elimination of flow and motion artifact by breath‐hold ECG‐gated and black‐blood techniques on T2‐weighted turbo SE and STIR sequences , 1999, Journal of magnetic resonance imaging : JMRI.

[7]  Hiroto Hatabu,et al.  Solitary pulmonary nodules: potential role of dynamic MR imaging in management initial experience. , 2002, Radiology.

[8]  L. Dougherty,et al.  Cardiac imaging at 4 Tesla , 2001, Magnetic resonance in medicine.

[9]  Hiroto Hatabu,et al.  Differentiation of metastatic versus non-metastatic mediastinal lymph nodes in patients with non-small cell lung cancer using respiratory-triggered short inversion time inversion recovery (STIR) turbo spin-echo MR imaging. , 2002, European journal of radiology.

[10]  G. Gamsu,et al.  A preliminary study of MRI quantification of simulated calcified pulmonary nodules. , 1987, Investigative radiology.

[11]  T. Matsumoto,et al.  A preliminary study of discrimination among the components of small pulmonary nodules by MR imaging: correlation between MR images and histologic appearance. , 2000, Radiation medicine.

[12]  F. Schick,et al.  Solitary pulmonary nodules: dynamic contrast-enhanced MR imaging--perfusion differences in malignant and benign lesions. , 2004, Radiology.

[13]  S. H. Koenig,et al.  Calcification Can Shorten T2, but not Tl, at Magnetic Resonance Imaging Fields: Results of a Relaxometry Study of Calcified Human Meningiomas , 1995, Investigative radiology.

[14]  M. Prokop,et al.  New imaging techniques in the treatment guidelines for lung cancer , 2002, European Respiratory Journal.

[15]  L. Tanenbaum,et al.  Clinical 3T MR imaging: mastering the challenges. , 2006, Magnetic resonance imaging clinics of North America.

[16]  S. Primack,et al.  Small Pulmonary Nodules on CT Accompanying Surgically Resectable Lung Cancer: Likelihood of Malignancy , 2002, Journal of thoracic imaging.

[17]  R. Hubner,et al.  Fast T1- and T2-weighted pulmonary MR-imaging in patients with bronchial carcinoma. , 2005, European journal of radiology.

[18]  R R Edelman,et al.  MR imaging of pulmonary parenchyma with a half-Fourier single-shot turbo spin-echo (HASTE) sequence. , 1999, European journal of radiology.

[19]  S. Riederer,et al.  Improved image quality of intracranial aneurysms: 3.0-T versus 1.5-T time-of-flight MR angiography. , 2004, AJNR. American journal of neuroradiology.

[20]  J. Debatin,et al.  Detection of pulmonary nodules using a 2D HASTE MR sequence: comparison with MDCT. , 2005, AJR. American journal of roentgenology.