Chemical shift MRI helps differentiate renal cell tumors more likely to metastasize
The study, conducted at Massachusetts General Hospital in Boston, included 156 patients with proven renal cell cancer. Clear cell renal carcinoma contains microscopic areas of fat, which is not seen on conventional imaging, said Dr. Azadeh Elmi, lead author of the study.
“Chemical shift MRI enables us to quantify even small amounts of fat,” she said. The study found that chemical shift MRI was about 83% accurate in differentiating clear cell renal cell carcinoma from other types of kidney cancer.
Clear cell type is the most common type of kidney cancer, and it has the greatest potential to metastasize, said Dr. Elmi. Chemical shift MRI is a protocol that can be readily performed in kidney MRI at no additional cost, she said.
“As we are moving toward less invasive treatment strategies for cancer patients, the need to better distinguish tumor characteristics is becoming greater. This study demonstrates that chemical shift MRI is a promising tool in renal cell cancer characterization before planning treatment. The surgeons can get better insight of the tumor biology and can plan before hand,” Dr. Elmi said.
The study will be presented April 19 during the ARRS Annual Meeting in Washington, DC.
Media Contact
More Information:
http://www.arrs.orgAll latest news from the category: Studies and Analyses
innovations-report maintains a wealth of in-depth studies and analyses from a variety of subject areas including business and finance, medicine and pharmacology, ecology and the environment, energy, communications and media, transportation, work, family and leisure.
Newest articles
Superradiant atoms could push the boundaries of how precisely time can be measured
Superradiant atoms can help us measure time more precisely than ever. In a new study, researchers from the University of Copenhagen present a new method for measuring the time interval,…
Ion thermoelectric conversion devices for near room temperature
The electrode sheet of the thermoelectric device consists of ionic hydrogel, which is sandwiched between the electrodes to form, and the Prussian blue on the electrode undergoes a redox reaction…
Zap Energy achieves 37-million-degree temperatures in a compact device
New publication reports record electron temperatures for a small-scale, sheared-flow-stabilized Z-pinch fusion device. In the nine decades since humans first produced fusion reactions, only a few fusion technologies have demonstrated…
