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  • Our publications

If you wish to receive a print-out (paper or pdf file), contact us by email (yves.gossuin@umons.ac.be ).

    • Hocq Aline, Luhmer Michel, Saussez Sven, Louryan S, Gillis Pierre, Gossuin Yves, "Effect of magnetic field and iron content on NMR proton relaxation of liver, spleen and brain tissues" in Contrast Media & Molecular Imaging, first published online, june 2014 (2014)
  • Jasir Javed, Lartigue Lenaïc, Hugounenq Pierre, Vuong Quoc Lam, Gossuin Yves, Rana Bazzi, Wilhelm Claire, Christian Ricolleau, Gazeau Florence, Alloyeau Damien, "Biodegradation Mechanisms of Iron Oxide Monocrystalline Nanoflowers and Tunable Shield Effect of Gold Coating" in Small : Nano Micro, first published online, may 2014 (2014)
  • Pflipsen Chrystel, Forge Delphine, Benali Samira, Gossuin Yves, "Improved Stability and Relaxivity of a Commercial Magnetic Ferrofluid" in Journal of Physical Chemistry C: Nanomaterials, Interfaces, and Hard Matter, 6, 837-850 (2013)
  • Guillet-Nicolas R, Laprise-Pelletier M, Nair MM, Chevallier P, Lagueux J, Gossuin Y, Laurent S, Kleitz F, Fortin MA. Manganese-impregnated mesoporous silica nanoparticles for signal enhancement in MRI cell labelling studies. Nanoscale,  2013. 5: 11499-511
  • Bridot Jean-Luc, Stanicki Dimitri, Laurent Sophie, Boutry Sébastien, Gossuin Yves, Leclère Philippe, Lazzaroni Roberto, Vander Elst Luce, Muller Robert, (2013). "New carboxysilane coated iron oxide nanoparticles for non-specific cell labelling" in Contrast Media & Molecular Imaging, 8, (page 466-474)
  • Naccache Rafik, Chevallier Pascale, Lagueux J, Gossuin Yves, Laurent Sophie, Vander Elst Luce, Chilian Cornelia, Capobianco John A, Fortin Marc-André, (2013). "High relaxivities and strong vascular signal enhancement for NaGdF4 nanoparticles designed for dual MR/Optical imaging" in Advanced Healthcare Materials, 2, 1477 DOI:10.1002/adhm.201300060
  • Vuong Quoc Lam, Van Doorslaer Sabine, Bridot Jean-Luc, Argante Corradina, Alejandro Gabriela, Hermann Raphaël P., Disch Sabrina, Mattea Carlos, Stapf Siegfried, Gossuin Yves, (2012). "Paramagnetic nanoparticles as potential MRI contrast agents: characterization, NMR relaxation, simulations and theory" in Magma (New York, N.Y.), 25, 6, 467-78
  • Vuong Quoc Lam, Gossuin Yves, Gillis Pierre, Delangre Sébastien, (2012). "New simulation approach using classical formalism to water nuclear magnetic relaxation dispersions in presence of superparamagnetic particles used as MRI contrast agents" in Journal of Chemical Physics, 137, 114505
  • Vuong Quoc Lam, Berret Jean-François, Fresnais Jérôme, Gossuin Yves, Sandre Olivier, (2012)."A universal Scaling Law to Predict the Efficiency of Magnetic Nanoparticles as MRI T2-Contrast Agents" in Advanced Healthcare Materials, 1, 4
  • Vuong Quoc Lam, Gillis Pierre, Gossuin Yves, "Monte Carlo simulation and theory of proton NMR transverse relaxation induced by aggregation of magnetic particles used as MRI contrast agents" in Journal of Magnetic Resonance, 212, 139-148 (2011)
  • Faucher L., Gossuin Y., Hocq A., Fortin M.-A. Impact of agglomeration on the relaxometric properties of paramagnetic ultra-small gadolinium oxide nanoparticles Nanotechnology 22 : 295103 (2011) doi: 10.1088/0957-4484/22/29/295103
  • Forge D., Laurent S., Gossuin Y., Roch A., Vander Elst L., Muller R. N. An original route to stabilize and functionalize magnetite nanoparticles for theranosis applications. MAGMA. 323 : 410-415 (2011).
  • Gossuin Y., Hocq A., Gillis P., Vuong Q. L. Physics of magnetic resonance imaging : from spin to pixel. J. Phys. D: Appl. Phys. 43 : 213001 (16 pp) (2010).
  • Forge D., Gossuin Y., Roch A., Laurent S., Vander Elst L., Muller R.N. Development of magnetic chromatography to sort polydisperse nanoparticles in ferrofluids. Contrast Med. Mol. Imaging 5 : 126-132 (2010).
  • Gossuin Y., Disch S., Vuong Q. L., Gillis P., Hermann R., Park J.-H., Sailor M. J. NMR relaxation and magnetic properties of superparamagnetic nanoworms. Contrast Media Mol. Imaging 5 : 318-322 (2010).
  • Hocq A., Brouette N., Saussez S., Luhmer M., Gillis P., Gossuin Y. Variable-field relaxometry of iron-containing human tissues: a preliminary study. Contrast Media Mol. Imaging 4 : 157-164 (2009).
  • Gossuin Y., Gillis P., Hocq A., Vuong Q. L., Roch A. MR relaxation properties of superparamagnetic particles. Wiley Interdisciplinary Reviews – Nanomed. Nanobiotechnol. 1 : 299-310 (2009).
  • Forge D., Roch A., Laurent S., Tellez H., Gossuin Y., Renaux F., Vander Elst L. and Muller R.N. Optimization of the Synthesis of Superparamagnetic Contrast Agents by the Design of Experiments Method. J. Phys. Chem. C.(49), pp 19178–19185 (2008).
  • Gossuin Y., Hocq A., Vuong Q. L., Disch S., Hermann R. P. and Gillis P. Physico-chemical and NMR relaxometric characterization of gadolinium hydroxide and dysprosium oxide nanoparticles. Nanotechnology 19 475102 (8pp) ( 2008)   doi: 10.1088/0957-4484/19/47/475102
  • Vuong Q. L., Gossuin Y., and Gillis P., Acoustical enhancement of nuclear magnetic relaxation rates in liquids. Phys. Rev. B. 77 : 212404 (2008)
  • Bomatí Miguel O., Gossuin Y., Morales M.P., Gillis P., Muller R.N., Veintemillas-Verdaguer S. Comparative analysis of the 1H NMR relaxation enhancement produced by iron oxide and core-shell iron–iron oxide nanoparticles. Magn. Reson. Imaging. 23 : 1437-1441 (2007).
  • Gossuin Y., Gillis P., Muller R.N. and Hocq A. Relaxation by Clustered ferritin: a model for ferritin-induced relaxation in vivo. NMR biomed . 20 (8): 749-756 (2007) .
  • De Marco G., Roch A., Peretti I., Gossuin Y., Lehman P., Menuel C., Vallée J.N., Muller R.N. Agents de contraste en IRM : approche théorique des mécanismes de relaxation. Medecine Nucléaire – Imagerie fonctionnelle et métabolique 30 : 645-658 (2006).
  • Desoil M., Gillis P., Gossuin Y., Pankhurst Q.A. and Hautot D., Definitive identification of magnetite nanoparticles in the abdomen of the honeybee Apis mellifera, Journal of Physics: Conference Series –17 : 45-49 (2005). 
  • Muller R.N., Ouakssim A., Fastrez S., Roch A., Laurent S., Gossuin Y., Piérart C. and Vander Elst L. Development of Superparamagnetic Particles Dispersions Basic Materials of Markers for Molecular Imaging Acad. Radiol. , 12, Issue 5, Supplement 1, May S45 (2005).
  • Roch A., Gossuin Y., Muller R.N., Gillis P., Superparamagnetic colloid suspensions: water magnetic relaxation and clustering. J. Magn. Magn. Mater . 293 : 532-539 (2005).
  • Muller R. N., Vander Elst L., Roch A., Peters J. A., Csajbok E., Gillis P., Gossuin Y. Relaxation by metal containing nanosytems. Adv. Inorg. Chem. Volume 57 (2005).
  • Gossuin Y., Hautot D., Muller R.N., P. Gillis et al. Looking for biogenic magnetite in brain ferritin using NMR relaxometry. NMR biomed. 18 (7): 469-472 (2005).
  • Gossuin Y., Burtea C., Monseux A., Toubeau G., Roch A., Muller R. and Gillis P. Ferritin-induced relaxation in tissues : an in vitro study. J. Magn. Reson. Imaging 20 : 690-696 (2004).
  • Gossuin Y., Muller R. N., and Gillis P. Relaxation induced by ferritin: A better understanding for an improved MRI iron quantification. NMR Biomed. 17 : 427-433 (2004).
  • Ouakssim A., Fastrez S., Roch A., Laurent S., Gossuin Y., Pierart C., Vander Elst L., Muller R.N. Control of the synthesis of magnetic fluids by relaxometry and magnetometry. J. Magn. Magn. Mater . 1711 : 272-276 (2004).
  • Laurent S., Nicotra C., Gossuin Y. et al. Influence of the length of the coating molecules on the nuclear magnetic relaxivity of superparamagnetic colloids. Phys. Stat. Sol. 12 : 3644-3650 (2004).
  • Gossuin Y, Roch A, Muller RN, et al. Anomalous nuclear magnetic relaxation of aqueous solutions of ferritin: an unprecedented first-order mechanism. Magn. Reson. Med. 48 (6): 959-964 (2002).
  • Gossuin Y, Roch A, Muller RN, et al. An evaluation of the contributions of diffusion and exchange in relaxation enhancement by MRI contrast agents. J. Magn. Reson. 158 (1-2): 36-42 (2002).
  • Gossuin Y, Colet JM, Roch A, et al. Cesium adsorption in hydrated iron oxide particles suspensions: An NMR study. J. Magn. Reson. 157 (1): 132-136 JUL 2002
  • Vander Elst L, Roch A, Gillis P, et al. Dy-DTPA derivatives as relaxation agents for very high field MRI: The beneficial effect of slow water exchange on the transverse relaxivities. Magn. Reson. Med. 47 (6): 1121-1130 (2002).
  • Gillis P, Moiny F, Brooks RA. O n T-2-shortening by strongly magnetized spheres: A partial refocusing model. Magn. Reson. Med. 47 (2): 257-263 (2002).
  • Gossuin Y, Roch A, Lo Bue F, et al. Nuclear magnetic relaxation dispersion of ferritin and ferritin-like magnetic particle solutions: A pH-effect study. Magn. Reson. Med. 46 (3): 476-481 (2001).
  • Gossuin Y, Gillis P, Lo Bue F. Susceptibility-induced T-2-shortening and unrestricted diffusion. Magn. Reson. Med. 47 (1): 194-195 (2002).
  • Roch A, Muller RN, Gillis P. Water relaxation by SPM particles: Neglecting the magnetic anisotropy? A caveat. J Magn. Reson. Imaging 14 (1): 94-96 JUL 2001
  • Brooks RA, Moiny F, Gillis P. On T2-shortening by weakly magnetized particles : the chemical exchange model. Magn. Reson. Med. 45 : 1014-1020 (2001).
  • Y. Gossuin, A. Roch, R. N. Muller, P. Gillis, Relaxation Induced by ferritin and ferritin-like magnetic particles : the role of proton exchange. Magn. Reson. Med. 43 : 237-243 (2000).
  • Roch, R. N. Muller, P. Gillis, Theory of proton relaxation induced by superparamagnetic particles. J. Chem. Phys. 110 : 5403-5411 (1999).
  • P. Gillis, A. Roch, R. A. Brooks, Corrected equations for susceptibility-induced T2-shortening. J. Magn. Reson. 137 : 402-407 (1999).
  • Roch, P. Gillis, A. Ouakssim, R. N. Muller, Proton relaxation in superparamagnetic aqueous colloids: a new tool for the investigation of ferrite crystal anisotropy. J. Magn. Magn. Mater. 201 : 77-79 (1999)
  • F. Lo Bue, F. Moiny, P. Gillis, Magnetic resonance susceptibility contrast induced by capillaries : a numerical comparison of two models. MAGMA 5 : 39-44 (1997).
  • P. Gillis, S. Petö, F. Moiny, J. Mispelter, C-A. Cuenod, Proton transverse nuclear magnetic relaxation in oxidized blood : a numerical approach. Magn. Reson. Med. 33 : 93-100 (1995).
  • R. N. Muller, P. Gillis, F. Moiny, A. Roch, Transverse relaxivity of particulate MRI contrast media : from theories to experiments. Magn. Reson. Med. 22 : 178-182 (1991).
  • P. Gillis, S. Petö, R. N. Muller, Bound water in heterogeneous system relaxometry : an ill-defined concept 9 : 703-708 (1991).
  • S. Petö, P. Gillis, V. P. Henry, Structure and dynamics of water in tendon from NMR relaxation measurements. Biophys. J. 57 : 71-84 (1990).
  • S. Petö, P. Gillis, Fiber-to-field angle dependence of proton nuclear magnetic relaxation in collagen. Magn. Reson. Imaging 8 : 705-712 (1990).
  • P. Gillis, B. Borcard, Nuclear magnetic relaxation dispersion of silica particle suspensions. J. Magn. Reson. 77 : 19-32 (1988).
  • S. H. Koenig, P. Gillis, Transverse relaxation of solvent protons induced by magnetized spheres and its relevance to contrast enhancement in MRI. Invest. Radiol. 23 : 224-228 (1988).
  • P. Gillis, S. H. Koenig, Transverse relaxation of solvent protons induced by magnetized spheres : application to ferritin, erythrocytes and magnetite. Magn. Reson. Med. 5 : 323-345 (1987).
  • F. Hanus and P. Gillis, Relaxation of water adsorbed on the surface of silica powder. J. Magn. Reson. 59, 437-445 (1984).