• Hans-Juergen Raatschen, Yanjun Fu, David M Shames, Michael F Wendland, and Robert C Brasch.
• Center for Pharmaceutical and Molecular Imaging, Department of Radiology, University of California, San Francisco, California 94143, USA. robert.brasch@radiology.ucsf.edu
• Invest Radiol. 2006 Dec 1; 41 (12): 860-7.

ObjectivesWe sought to compare magnetic resonance imaging (MRI) enhancement using 4 novel macromolecular polyethyleneglycol (PEG)-based cascade-polymer gadolinium contrast agents (macromolecular contrast media) in normal soft tissues and a breast cancer model.Materials And MethodsFour candidate PEG cascade polymers with effective molecular weights of 74, 82, 106, and 132 kDa, respectively, and T1-relaxivities of 8.1, 9.1, 9.7, and 10.0, respectively (at 2 Tesla and 37 degrees C in HEPES buffer), initially were used to characterize liver and kidney MRI-enhancement patterns in normal Sprague-Dawley rats (n = 4-5 per contrast agent). Kinetic analysis of dynamic MRI enhancement was used in 8 nude rats bearing MDA-MB 435 breast cancers to estimate fractional plasma volume and apparent endothelial leakiness (K) in tumors and muscle.ResultsSoft-tissue enhancement patterns followed closely the blood enhancement over the course of 30-50 minutes with estimated blood half-lives between 23 and 73 minutes, which varied with effective molecular weights. The 2 smaller compounds yielded measurable leaks in normal muscle [K = 204 and 56 microL/(min.100 cm), respectively], whereas the 2 larger molecules did not leak in muscle [K = 0 microL/(min.100 cm)]; however, MRI-assayed leakiness of tumor vessels with respect to those 2 larger macromolecular contrast media was 68 +/- 27 and 16 +/- 8 microL/(min.100 cm), respectively.ConclusionsTwo relatively large (effective molecular weight >82 kDa) PEG-based cascade polymer contrast agents were well-suited for MRI quantification of tissue plasma volume and for differentiating leaky cancer microvessels from nonleaky normal vessels.

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