• Title of article

    Improved surgical mesh integration into the rat abdominal wall with arginine administration

  • Author/Authors

    M.A. Arbos، نويسنده , , J.M. Ferrando، نويسنده , , M.T. Quiles، نويسنده , , J. Vidal، نويسنده , , M. L?pez-Cano، نويسنده , , J. Gil، نويسنده , , J.M. Manero، نويسنده , , J. Pe?a، نويسنده , , P. Huguet، نويسنده , , S. SCHWARTZ-RIERA، نويسنده , , J. Revent?s، نويسنده , , M. Armengol، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2006
  • Pages
    11
  • From page
    758
  • To page
    768
  • Abstract
    Prosthetic meshes are used as the standard of care in abdominal wall hernia repair. However, hernia recurrences and side effects remain unsolved problems. The demand by health care providers for increasingly efficient and cost-effective surgery encourages the development of newer strategies to improve devices and outcomes. Here, we evaluated whether l-arginine administration was able to ameliorate long-term polypropylene prostheses incorporation into the abdominal wall of Sprague–Dawley rats. Meshes were placed on-lay and continuous l-arginine was administered. In vivo biocompatibility was studied at 7, 25 and 30 days post-implantation. Effectively, l-arginine administration in combination with mesh triggered subtle changes in ECM composition that impinged on critical biochemical and structural features. Lastly, tensile strength augmented and stiffness decreased over the control condition. This could help to restructure the mechanical load transfer from the implant to the brittle surrounding tissues, i.e., impact load and fatigue load associated with mechanical tensions could be distributed between the mesh and the restored tissue in a more balanced manner, and ultimately help to reduce the incidence of loosening, recurrences, and local wound complications. Since the newly formed tissue is more mechanically stable, this approach could eventually be introduced to human hernia repair.
  • Keywords
    L-Arginine , ECM , angiogenesis , Environmental scanning electron microscopy (ESEM) , Soft tissue biomechanics , Surgical mesh
  • Journal title
    Biomaterials
  • Serial Year
    2006
  • Journal title
    Biomaterials
  • Record number

    546706