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Science 27 January 1984:
Vol. 223. no. 4634, pp. 399 - 400
DOI: 10.1126/science.6318321
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Articles

Science, Vol 223, Issue 4634, 399-400
Copyright © 1984 by American Association for the Advancement of Science

articles

Nuclear magnetic resonance imaging of the vitreous body

RG Gonzalez, HM Cheng, P Barnett, J Aguayo, B Glaser, B Rosen, CT Burt, and T Brady

Imaging with proton nuclear magnetic resonance is a valuable new tool for studying the vitreous body of the eye. It is particularly suited for the detection of vitreal liquefaction and intraocular hemorrhage because of the dependence of the signal on the physical environment of water. Conversely, the vitreous body provides a new model for studying changes in proton relaxation times of protein solutions in biological systems.


THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
Proton and Sodium 23 Magnetic Resonance Imaging of Human Ocular Tissues: A Model Study.
N. H. Kolodny, E. S. Gragoudas, D. J. D'Amico, S. J. Kohler, J. M. Seddon, E. J. Murphy, C. Yun, and D. M. Albert (1987)
Arch Ophthalmol 105, 1532-1536
   Abstract »    PDF »
Early Vitreous Changes in Experimental Proliferative Vitreoretinopathy.
S. Miglior, H. L. Kain, T. Libondi, R. G. Gonzalez, P. Barnett, J. M. Krauss, and H.-M. Cheng (1986)
Arch Ophthalmol 104, 1681-1684
   Abstract »    PDF »
Vitreous Changes After Neodymium-YAG Laser Photodisruption.
J. M. Krauss, C. A. Puliafito, S. Miglior, R. F. Steinert, and H.-M. Cheng (1986)
Arch Ophthalmol 104, 592-597
   Abstract »    PDF »


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