• Title of article

    Osmotic and aging effects in caviar oocytes throughout water and lipid changes assessed by 1H NMR T1 and T2 relaxation and MRI

  • Author/Authors

    F. and Gussoni، نويسنده , , Maristella and Greco، نويسنده , , Fulvia and Vezzoli، نويسنده , , Alessandra and Paleari، نويسنده , , Maria Antonietta and Moretti، نويسنده , , Vittorio Maria and Lanza، نويسنده , , Barbara and Zetta، نويسنده , , Lucia، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    12
  • From page
    117
  • To page
    128
  • Abstract
    By combining NMR relaxation spectroscopy and magnetic resonance imaging techniques, unsalted (us) and salted (s) caviar (Acipenser transmontanus) oocytes were characterized over a storage period of up to 90 days. The aging and the salting effects on the two major cell constituents, water and lipids, were separately assessed. T1 and T2 decays were interpreted by assuming a two-site exchange model. At Day 0, two water compartments that were not in fast exchange were identified by the T1 relaxation measurements on the us oocytes. In the s samples, T1 decay was monoexponential. During the time of storage, an increment of the free water amount was found for the us oocytes, ascribed to an increased metabolism. T1 and T2 of the s oocytes shortened as a consequence of the osmotic stress produced by salting. Selective images showed the presence of water endowed with different regional mobility that severely changed during the storage. Lipid T1 relaxation decays collected on us and s samples were found to be biexponential, and the T1 values lengthened during storage. In us and s oocytes, the increased lipid mobility with the storage was ascribed to lipolysis. Selective images of us samples showed lipids that were confined to the cytoplasm for up to 60 days of storage.
  • Keywords
    compartmentation , MRI , 1H NMR relaxation , Caviar (Acipenser transmontanus) oocyte , water , lipids
  • Journal title
    Magnetic Resonance Imaging
  • Serial Year
    2007
  • Journal title
    Magnetic Resonance Imaging
  • Record number

    1832389