• Title of article

    Mathematical modeling of drug release from nanostructured porous Si: Combining carrier erosion and hindered drug diffusion for predicting release kinetics

  • Author/Authors

    Tzur-Balter، نويسنده , , Adi and Young، نويسنده , , Jonathan M. and Bonanno-Young، نويسنده , , Lisa M. and Segal، نويسنده , , Ester، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    8
  • From page
    8346
  • To page
    8353
  • Abstract
    A novel, empirical, macroscopic model is developed to describe the release of a model anticancer drug, Mitoxantrone, from native and chemically modified porous Si (PSi) thin films. Drug release from these carriers results from a combination of two mechanisms, i.e. out-diffusion of the drug molecules and erosion of the Si scaffold. Thus, the proposed mathematical model adapts the Crank model to lump the effects of temporal changes in molecular interactions and carrier scaffold erosion into a comprehensive model of hindered drug diffusion from nanoscale porous systems. Careful characterization of pore size, porosity, surface area, drug loading, as well as Si scaffold degradation profiles, measured over the same time-scale as drug release, are incorporated into the model parameter estimation. A comparison of the experimental and model results shows accurate representation of the data, emphasizing the reliability of the model. The proposed model shows that drug diffusivity values significantly vary with time for the two studied carriers, which are ascribed to the distinctive role of the prevailing physical mechanisms in each system. Finally, secondary validation of the proposed model is demonstrated by showing adequate fit to published data of the release of dexamethasone from similar mesoporous Si carriers.
  • Keywords
    Surface chemistry , Drug release , Mesoporous Si , CONTROLLED DELIVERY , Mathematical Modeling
  • Journal title
    Acta Biomaterialia
  • Serial Year
    2013
  • Journal title
    Acta Biomaterialia
  • Record number

    1757438