SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Zhong J, Kennan R, Schaub M, Gore JC. Measurements of transient contrast enhancement by localized water NMR spectroscopy. J Magn Reson B 1994; 104: 111118.
  • 2
    Saeed M, Wendland MF, Tomei E, Rocklage SM, Quay SC, Moseley ME, Wolfe C, Higgins CB. Demarcation of myocardial ischemia: magnetic susceptibility effect of contrast medium in MR imaging. Radiology 1989; 173: 763767.
  • 3
    Wikstrom M. MR imaging of experimental myocardial infarction. Acta Radiol Suppl 1992; 379: 130.
  • 4
    Wikstrom M, Martinussen HJ, Ericsson A, Wikstrom G, Waldestrom A, Hemmingsson A. Double-contrast enhanced MR imaging of myocardial infarction in the pig. Acta Radiol 1993; 34: 6471.
  • 5
    Saeed M, Wendland MF, Masui T, Higgins CB. Reperfused myocardial infarctions on T1- and susceptibility-enhanced MRI: evidence for loss of compartmentalization of contrast media. Magn Reson Med 1994; 31: 3139.
  • 6
    Nilsson S, Wikstrom G, Ericsson A, Wikstrom M, Oksendal A, Waldenstrom A, Hemmingsson A. Double contrast MR imaging of reperfused porcine myocardial infarction. An experimental study using Gd-DTPA and Dy-DTPA-BMA. Acta Radiol 1996; 37: 2735.
  • 7
    Dupas B, Bach-Gansmo T, Meflah K, Muller RN, Synergistic effects of relaxation and susceptibility in differentiation between compartmentalized and non compartmentalized tissues. Invest Radiol 1998; 33: 268278.
  • 8
    Bertini I, Capozzi F, Luchinat C, Nicastro G, Xia Z. Water proton relaxation for some lanthanide aqua ions in solution. J Phys Chem 1993; 97: 63516354.
  • 9
    Gueron M. Nuclear relaxation in macromolecules by paramagnetic ions: a novel mechanism. J Magn Reson 1975; 19: 5866.
  • 10
    Aime S, Botta M, Barbero L, Uggeri F, Fedeli F. Water signal suppression by T2-relaxation enhancement promoted by Dy(III) complexes. Magn Reson Chem 1991; 29: S85S88.
  • 11
    Bulte JWM, Wu C, Brechbiel MW, Brooks RA, Vymazal J, Holla M, Frank JA. Dysprosium-DOTA-PAMAM dendrimers as macromolecular T2 contrast agents. Preparation and relaxometry. Invest Radiol 1998; 33: 841845.
  • 12
    Kellar KE, Fossheim S, Koenig SH. Magnetic field dependence of solvent proton relaxation by solute dysprosium(III) complexes. Invest Radiol 1998; 33: 835840.
  • 13
    Konings MS, Dow WC, Love DB, Raymond KN, Quay SC, Rocklage SM. Gadolinium complexation by a new DTPA-amide ligand. Amide oxygen coordination. Inorg Chem 1990; 29: 14881491.
  • 14
    Aime S, Benetollo F, Bombieri G, Colla S, Fasano M, Paoletti S. Non-ionic Ln(III) chelates as MRI contrast agents: synthesis, characterization and 1H NMR relaxometric investigations of bis(benzylamide)diethylenetriaminepentaacetic acid Lu(III) and Gd(III) complexes. Inorg Chim Acta 1997; 254: 6370.
  • 15
    Laurent S, Vander Elst L, Copoix F, Muller RN. Stability of MRI paramagnetic contrast media. A proton relaxometric protocol for transmetallation assessment.. Invest Radiol 2001; 36: 115122.
  • 16
    Vander Elst L, Maton F, Laurent S, Seghi F, Chapelle F, Muller RN. A multinuclear MR study of Gd-EOB-DTPA: comprehensive preclinical characterization of an organ specific MRI contrast agent. Magn Reson Med 1997; 38: 604614.
  • 17
    Vander Elst L, Laurent S, Muller RN. Multinuclear magnetic resonance characterization of paramagnetic contrast agents. The manifold effects of concentration and counterions. Invest Radiol 1998; 33: 828834.
  • 18
    Bertini I, Luchinat C. NMR of paramagnetic molecules in biological systems. In: LeverABP, GrayHB, editors. Physical bioinorganic chemistry series. Menlo Park: Benjamin/Cummings Publishing Company, Inc.; 1986. p 19102.
  • 19
    Gillis P, Roch A, Brooks RA. Corrected equations for susceptibility-induced T2-shortening. J Magn Reson 1999; 137: 402407.
  • 20
    Freed JH. Dynamic effects of pair correlation functions on spin relaxation by translational diffusion in liquids. II. Finite jumps and independent T1 processes. J Chem Phys 1978; 68: 40344037.
  • 21
    Pruppacher HR. Self-diffusion coefficient of supercooled water. J Chem Phys 1972; 56: 101107.
  • 22
    Micskei K, Helm L, Brücher E, Merbach AE. 17O NMR study of water exchange on [Gd(DTPA)H2O)]2− and [Gd(DOTA)H2O] related to NMR imaging. Inorg Chem 1993; 32: 38443850.
  • 23
    Powell DH, Ni Dhubhghaill OM, Pubanz D, Helm L, Lebedev YS, Schlaepfer W, Merbach AE. Structural and dynamic parameters obtained from 17O NMR, EPR, and NMRD studies of monomeric and dimeric Gd3+ complexes of interest in magnetic resonance imaging: an integrated and theoretically self-consistent approach. J Am Chem Soc 1996; 118: 93339346.
  • 24
    Muller RN, Raduchel B, Laurent S, Platzek J, Piérart C, Mareski P, Vander Elst L. Physicochemical characterization of MS-325, a new gadolinium complex, by multinuclear relaxometry. Eur J Inorg Chem 1999; 19491955.
  • 25
    Pubanz D, Gonzales G, Powell DH, Merbach AE. Unexpectedly large change of water exchange rate and mechanism on [Ln(DTPA-BMA)(H2O)] complexes along the lanthanide(III) series. Inorg Chem 1995; 34: 44474453.
  • 26
    Powell DH, Favre M, Graeppi N, Ni Dhubhghaill OM, Pubanz D, Merbach AE. Solution kinetic behaviour of lanthanide (III) polyaminocarboxylates from oxygen-17 NMR studies. J Alloys Comp 1995; 225: 246252.
  • 27
    Graeppi N, Powell DH, Laurenczy G, Zekany L, Merbach AE. Coordination equilibria and water exchange kinetics of lanthanide (III) propylenediaminetetraacetates and other magnetic resonance imaging related complexes. Inorg Chim Acta 1995; 235: 311326.
  • 28
    Alpoim MC, Urbano AM, Geraldes CFGC, Peters JA. Determination of the number of inner-sphere water molecules in lanthanide(III) polyaminocarboxylate complexes. J Chem Soc Dalton Trans 1992; 463467.
  • 29
    Laurent S, Vander Elst L, Houzé S, Guérit N, Muller RN. Synthesis and characterization of various benzyl diethylenetriaminepentaacetic acids (DTPA) and their paramagnetic complexes, potential contrast agents for magnetic resonance imaging. Helv Chim Acta 2000; 82: 394406.
  • 30
    Aime S, Botta M, Fasano M, Paoletti S, Anelli PL, Uggeri F, Virtuani M. NMR evidence of a long exchange lifetime for the coordinated water in Ln(III)-bis(methyl amide)-DTPA complexes (Ln=Gd, Dy). Inorg Chem 1994; 33: 47074711.
  • 31
    Gonzalez G, Powell DH, Tissières V, Merbach AE. Water-exchange, electronic relaxation, and rotational dynamics of the MRI contrast agent [Gd(DTPA-BMA) (H2O)] in aqueous solution: a variable pressure, temperature, and magnetic field 17O NMR study. J Phys Chem 1994; 98: 5359.
  • 32
    Geraldes CFGC, Urbano AM, Alpoim MC, Sherry AD, Kuan K-T, Rajagopalan R, Maton F, Muller RN. Preparation, physico-chemical characterization, and relaxometry studies of various gadolinium(III)-DTPA-bis(amide) derivatives as potential magnetic resonance contrast agents. Magn Reson Imaging 1995; 13: 401420.
  • 33
    Caravan P, Greenfield MT, Bulte JWM. Molecular factors that determine Curie spin relaxation in dysprosium complexes. Magn Reson Med 2001; 46: 917922.
  • 34
    Aime S, Chiaussa M, Digilio G, Gianolio E, Terreno E. Contrast agents for magnetic resonance angiographic applications: 1H and 17O NMR relaxometric investigations on two gadolinium(III) DTPA-like chelates endowed with high binding affinity to human serum albumin. J Biol Inorg Chem 1999; 4: 766774.