PURPOSE: To choose an efficacious renal functional MRI contrast agent to image early renal tubular damage. We synthesized and compared smaller polyamine dendrimer-based MRI contrast agents (<60 kD) that, unlike Gd-[DTPA], transiently accumulate in renal tubules and can be used to visualize renal structural and functional damage. MATERIALS AND METHODS: Six dendrimer-based MRI contrast agents smaller than 60 kD were studied by high resolution dynamic micro-MRI and compared to Gd-[DTPA]-dimeglumine and Gadomer-17. The best agent, DAB-G2, was further tested in a mouse ischemia/reperfusion model to validate its efficacy. RESULTS: Despite unequal renal clearance rates, all polyamine dendrimer agents visualized the renal functional anatomy of the mice better than Gd-[DTPA]-dimeglumine and Gadomer-17. DAB-G2 was excreted most rapidly, yet was able to visualize mild renal tubular injury very early after injury. CONCLUSION: DAB-G2 was found to be the best candidate for functional kidney imaging and enabled early diagnosis of acute renal injury.
PURPOSE: To choose an efficacious renal functional MRI contrast agent to image early renal tubular damage. We synthesized and compared smaller polyamine dendrimer-based MRI contrast agents (<60 kD) that, unlike Gd-[DTPA], transiently accumulate in renal tubules and can be used to visualize renal structural and functional damage. MATERIALS AND METHODS: Six dendrimer-based MRI contrast agents smaller than 60 kD were studied by high resolution dynamic micro-MRI and compared to Gd-[DTPA]-dimeglumine and Gadomer-17. The best agent, DAB-G2, was further tested in a mouseischemia/reperfusion model to validate its efficacy. RESULTS: Despite unequal renal clearance rates, all polyamine dendrimer agents visualized the renal functional anatomy of the mice better than Gd-[DTPA]-dimeglumine and Gadomer-17. DAB-G2 was excreted most rapidly, yet was able to visualize mild renal tubular injury very early after injury. CONCLUSION:DAB-G2 was found to be the best candidate for functional kidney imaging and enabled early diagnosis of acute renal injury.
Authors: Feng Wang; Keiko Takahashi; Hua Li; Zhongliang Zu; Ke Li; Junzhong Xu; Raymond C Harris; Takamune Takahashi; John C Gore Journal: Magn Reson Med Date: 2017-07-24 Impact factor: 4.668
Authors: Kevin M Bennett; Hua Zhou; James P Sumner; Stephen J Dodd; Nadia Bouraoud; Kent Doi; Robert A Star; Alan P Koretsky Journal: Magn Reson Med Date: 2008-09 Impact factor: 4.668