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Journal Abstract Search

233 related items for PubMed ID: 19156273

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  • 3. Pushing the sensitivity envelope of lanthanide-based magnetic resonance imaging (MRI) contrast agents for molecular imaging applications.
    Aime S, Castelli DD, Crich SG, Gianolio E, Terreno E.
    Acc Chem Res; 2009 Jul 21; 42(7):822-31. PubMed ID: 19534516
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  • 4. Enhancement of relaxivity rates of Gd-DTPA complexes by intercalation into layered double hydroxide nanoparticles.
    Xu ZP, Kurniawan ND, Bartlett PF, Lu GQ.
    Chemistry; 2007 Jul 21; 13(10):2824-30. PubMed ID: 17186555
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  • 5. Synthesis and characterization of PEGylated Gd2O3 nanoparticles for MRI contrast enhancement.
    Ahrén M, Selegård L, Klasson A, Söderlind F, Abrikossova N, Skoglund C, Bengtsson T, Engström M, Käll PO, Uvdal K.
    Langmuir; 2010 Apr 20; 26(8):5753-62. PubMed ID: 20334417
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  • 8. Gold nanoparticles functionalized with gadolinium chelates as high-relaxivity MRI contrast agents.
    Moriggi L, Cannizzo C, Dumas E, Mayer CR, Ulianov A, Helm L.
    J Am Chem Soc; 2009 Aug 12; 131(31):10828-9. PubMed ID: 19722661
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  • 9. Tuning the magnetic resonance imaging properties of positive contrast agent nanoparticles by surface modification with RAFT polymers.
    Rowe MD, Chang CC, Thamm DH, Kraft SL, Harmon JF, Vogt AP, Sumerlin BS, Boyes SG.
    Langmuir; 2009 Aug 18; 25(16):9487-99. PubMed ID: 19422256
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  • 12. Hybrid lanthanide nanoparticles with paramagnetic shell coated on upconversion fluorescent nanocrystals.
    Li Z, Zhang Y, Shuter B, Muhammad Idris N.
    Langmuir; 2009 Oct 20; 25(20):12015-8. PubMed ID: 19764797
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  • 13. Impact of agglomeration on the relaxometric properties of paramagnetic ultra-small gadolinium oxide nanoparticles.
    Faucher L, Gossuin Y, Hocq A, Fortin MA.
    Nanotechnology; 2011 Jul 22; 22(29):295103. PubMed ID: 21693804
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  • 14. Magnetic nanoparticles--templated assembly of protein subunits: a new platform for carbohydrate-based MRI nanoprobes.
    Valero E, Tambalo S, Marzola P, Ortega-Muñoz M, López-Jaramillo FJ, Santoyo-González F, de Dios López J, Delgado JJ, Calvino JJ, Cuesta R, Domínguez-Vera JM, Gálvez N.
    J Am Chem Soc; 2011 Apr 06; 133(13):4889-95. PubMed ID: 21384882
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  • 15. Fabrication of water soluble and biocompatible CdSe nanoparticles in apoferritin with the aid of EDTA.
    Xing R, Wang X, Yan L, Zhang C, Yang Z, Wang X, Guo Z.
    Dalton Trans; 2009 Mar 14; (10):1710-3. PubMed ID: 19240903
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  • 17. Structural and magnetic characterization of Pd nanoparticles encapsulated in apoferritin.
    Gálvez N, Valero E, Domínguez-Vera JM, Masciocchi N, Guagliardi A, Clemente-León M, Coronado E.
    Nanotechnology; 2010 Jul 09; 21(27):274017. PubMed ID: 20571204
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  • 18. A benzene-core trinuclear GdIII complex: towards the optimization of relaxivity for MRI contrast agent applications at high magnetic field.
    Livramento JB, Helm L, Sour A, O'Neil C, Merbach AE, Tóth E.
    Dalton Trans; 2008 Mar 07; (9):1195-202. PubMed ID: 18283380
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  • 19. Properties evaluation of a new MRI contrast agent based on Gd-loaded nanoparticles.
    Riyahi-Alam N, Behrouzkia Z, Seifalian A, Haghgoo Jahromi S.
    Biol Trace Elem Res; 2010 Dec 07; 137(3):324-34. PubMed ID: 20049554
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  • 20. Use of lanthanide-grafted inorganic nanoparticles as effective contrast agents for cellular uptake imaging.
    Voisin P, Ribot EJ, Miraux S, Bouzier-Sore AK, Lahitte JF, Bouchaud V, Mornet S, Thiaudière E, Franconi JM, Raison L, Labrugère C, Delville MH.
    Bioconjug Chem; 2007 Dec 07; 18(4):1053-63. PubMed ID: 17511491
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