• Title of article

    The evaluation of collagen gel with various connection states by using MRI

  • Author/Authors

    Kudo، نويسنده , , Hiroki and Mukai، نويسنده , , Naoki and Gouping، نويسنده , , Chen and Numanno، نويسنده , , Tomokazu and Honma، نويسنده , , Kazuhiro and Tateishi، نويسنده , , Tetsuya and Miyanaga، نويسنده , , Yutaka and Miyakawa، نويسنده , , Syumpei، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2008
  • Pages
    4
  • From page
    270
  • To page
    273
  • Abstract
    To noninvasively evaluate the connection states of collagen fiber, a characterizing factor of the physical property, is considered to be helpful in the evaluation of cartilage functions. The purpose of this study was to examine how the connection states of collagen influence the MRI parameters by evaluating the collagen gel with various connection states using MRI. MRI was performed to six type I collagen gel samples with various connection status and a water sample. The evaluation parameters included T1 relaxation time, T2 relaxation time, and diffusion coefficient. With regard to gel samples with cross-links, the T2 relaxation time was shortened in proportion to the dose of glutaraldehyde. It is considered that as the glutaraldehyde concentration increases, the distance between protons in water molecules decreases; this is followed by a stronger bipole–bipole interaction, resulting in a shorter T2 relaxation time. The diffusion coefficient for gel samples with cross-links also decreased with increasing glutaraldehyde concentrations. However, gel samples without glutaraldehyde were almost the same as that of the water. This result suggested that the degree of entrapment of water inside the gel samples without cross-links, even when it converted into gel, was found to be nearly equal to that of the free water.
  • Keywords
    MAGNETIC RESONANCE IMAGING , collagen gel , Cross-link , T1 relaxation time , T2 relaxation time , Diffusion coefficient
  • Journal title
    Materials Science and Engineering C
  • Serial Year
    2008
  • Journal title
    Materials Science and Engineering C
  • Record number

    2096750