PET/CT, 3T MRI perform equally well in lung cancer staging

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Oncology NEWS InternationalOncology NEWS International Vol 17 No 9
Volume 17
Issue 9

No clear winner has emerged in a head-to-head comparison of whole-body FDG-PET/CT and whole-body 3T MRI for non-small-cell lung (NSCLC) cancer staging. Unenhanced PET/CT proved better for detecting metastatic lymph nodes and soft-tissue involvement, while MR was more sensitive to the presence of brain and liver metastases.

No clear winner has emerged in a head-to-head comparison of whole-body FDG-PET/CT and whole-body 3T MRI for non-small-cell lung (NSCLC) cancer staging. Unenhanced PET/CT proved better for detecting metastatic lymph nodes and soft-tissue involvement, while MR was more sensitive to the presence of brain and liver metastases.

 

Although thoracic CT is considered the modality of choice for assessing the intrathoracic spread of lung disease, no consensus exists for which modality is best for evaluations of metastases.

 

Chin A. Yi, MD and colleagues at the Sungkyunkwan University School of Medicine in Seoul, Korea, examined findings from 165 NSCLC patients screened with whole-body PET/CT and whole-body 3T MRI.

 

None of the patients were thought to have metastatic disease on the basis of a physical exam, lab findings, and enhanced thoracic CT covering the thorax and upper abdomen.

 

No statistically significant advantage was identified for either PET/CT or whole-body MRI for tumor staging.

 

Whole-body PET/CT and 3T MRI correctly staged 82% and 86% of the primary tumors, respectively. For N-staging, the performance of the two modalities was again nearly equal. PET/CT correctly staged 70% of patients, and 3T MR correctly staged 68% (Radiology 248: 632-642, 2008).

 

Both PET/CT and whole-body MR showed 86% accuracy on a per-patient basis for detecting metastases. PET/CT was 48% sensitive and 96% specific for their presence. Three-T MRI was 52% sensitive and 94% specific.

 

Dr. Yi and colleagues found that PET/CT may have been more useful for metastasis detection in lymph nodes and soft tissue because of prominent FDG uptake in lesions in these areas.

 

Dr. Yi credited the higher field strength of 3T MRI and the use of a phased-array cardiac coil for thoracic imaging for improvements compared with earlier studies performed with 1.5T MRI. The better contrast of the MR images compared with PET/CT may have provided improved metastasis detection in the brain, liver, and kidneys, he said.

This article is adapted from ONI’s sister publication Diagnostic Imaging Online (July 31, 2008).

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