Magnetic resonance imaging , contrast agents

Kobayashi, H., Kawamoto, S., Star, R.A., Waldmann, T.A., Tagaya, Y., and Brechbiel, M.W. (2003) Micro-magnetic resonance lymphangiography in mice using a novel dendrimer-based magnetic resonance imaging contrast agent. Can. Res. 63, 271-276. 

Keywords Metallofullerene, endohedral, gadolinium, magnetic resonance imaging, contrast agent, relaxivity, cellular imaging, molecular imaging... 

S.D. Camthers, P.M. Winter, S.A. Wickline, G.M. Lanza, Targeted magnetic resonance imaging contrast agents. Methods Mol. Med. 124 (2006) 387-400. 

Lin YS, Hung Y, Su JK, Lee R, Chang C, Lin ML, Mou YC (2004) Gadolinium(III)-incorporated nanosized mesoporous silica as potential magnetic resonance imaging contrast agents. J Phys Chem B 108 15608-15611... 

Keywords Magnetic resonance imaging, Contrast agent, Smart, Targeting, Chelate... 

Copper has been immobilized on glycylglycine bolaamphiphile peptide nanotubes that display histidine residues, and paramagnetic gadolinium, a magnetic resonance image contrast agent, has been immobilized on nanofibers produced from peptide amphiphiles (see Gazit, 2007 and references therein). 

Woods, M., Kovacs, Z., Zhang, S., and Sherry, A.D. (2003) Towards the rational design of magnetic resonance imaging contrast agents isolation of the two coordination isomers of lanthanide DOTA-type complexes. Angewandte Chemie Interrmtional Edition, 115, 6069-6072. 

Terzi C, Sokmen S. Acute pancreatitis induced by magnetic-resonance-imaging contrast agent. Lancet 1999 354(9192) 1789-90. 

Lin J, Idee JM, Port M, Dial A, Berthommier C, Robert M, Raynal I, Devoldere L, Corot C Interference of magnetic resonance imaging contrast agents with the serum calcium measurement technique using colorimetric reagents. JPharm Biomed Anal21 931-943,1999. 

Several applications have been envisaged for nanocrystals, ranging from simple dyes to magnetic-resonance-imaging contrast agents [160], components of electronic circuitry [33, 161] and magnetic media [115], ingredients in catalyst and sensors, and so on. All the above applications seek to exploit the tunability provided by the size-dependent properties of the nanocrystals [4]. Before we dwell upon collective properties in mesostructures, the case of isolated nanocrystals is briefly discussed. 

Corbin IR, Li H, Chen J, et al. Low-density lipoprotein nanoparticles as magnetic resonance imaging contrast agents. Neoplasia 2006 8 488-498. 

Pascolo, L Cupelli, F, Anelli, P.L., Lorusso, V., Visigalli, M Uggeri, F., and Tiribelli, C. (1999) Molecular mechanisms for the hepatic uptake of magnetic resonance imaging contrast agents. Biochemical and Biophysical Research Communications, 257, 746-752. 

E. C. Wiener, V. V. Narayanan, Magnetic Resonance Imaging Contrast Agents Theory and the Role of Dendrimers, in Advances in Dendritic Macromolecules, G. R. Newkome, Ed., pp. 129-247, Elsevier Science, Kidlington, Oxford, UK, 2002. 

Nuetral templates may not be bound to the zeolite surface but simply trapped. This is the basis of our zeolite synthesis method for the preparation of ship-in-a-bottle metal complexes, ie crystallization of the zeolite around a metal chelate complex. Zeolite encapsulated metal complexes have many applications, ranging from shape selective catalysis [9] to magnetic resonance imaging contrast agents [10]. 

Lu ZR, Mohs AM, Zong Y, Feng Y. Polydisulfide Gd(III) chelates as biodegradable macromolecular magnetic resonance imaging contrast agents. Inti J Nanomed 2006 1 31-40. 

Rongved, P., Fritzell, T. H., Strande, P. and Klaveness, J., 1996, Polysaccharides as carriers for magnetic resonance imaging contrast agents synthesis and stability of a new amino acid linker derivative. Carbohydr. Res., 287 77-89... 

Introduction to Magnetic Resonance Imaging and Magnetic Resonance Imaging Contrast Agents 531... 

Zhu, D.R., et al. Nanoparticle-Based Systems for T-1-Weigh ted Magnetic Resonance Imaging Contrast Agents. International Journal of Molecular Sciences 14(5), 10591-10607 (2013)... 

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