Journal d'imagerie et de dynamique moléculaires

Journal d'imagerie et de dynamique moléculaires
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ISSN: 2155-9937

Abstrait

Whole body diffusion weighted MRI in detection of skeletal metastasis. our experience with 1.5 and 3 Tesla MRI

Abdulkarim Jamal

Metastatic bone disease is a common manifestation of advanced cancers particularly breast, prostate and lung. Currently many hospitals rely on traditional imaging technique such as bone scan, CT scan and more recently PET CT scan for detection of metastases and assessment of tre Whole-body Diffusion Weighted Imaging (WB-DWI) is emerging as a promising bone marrow assessment tool for detection and therapy monitoring of bone metastases. Advantages of WB-DWI include the fact that no ionizing radiation
is administered and no injection of isotopes or any contrast medium is necessary. Importantly, whole-body skeletal examinations are possible in reasonably short data acquisition times. 110 whole body MRI examinations using 1.5 and 3 Tesla MRI and the image findings in skeletal metastases and comparison with other imaging modalities.WB-MRI outperforms bone scans + targeted x-rays in detecting bone metastases and performs as well as CT for lymph node evaluation in prostate cancer.FDG-PET and WB-DWI; both are more accurate than CT and bone scans for detecting bone metastases.WB-DWI used alone has equal performance to FDG-PET for detecting primary tumours &soft tissue metastases DW-MRI needs to be combined with morphologic sequences to improve specificity.Whole body MRI is promising new technique in the detection and assessment of treatment response in skeletal metastases in many malignancies. It has very high sensitivity and specificity, its relatively quick to perform and does not need the injection of contrast agent or the use of ionising radiation.

Clause de non-responsabilité: Ce résumé a été traduit à l'aide d'outils d'intelligence artificielle et n'a pas encore été révisé ou vérifié.
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