• Title of article

    Design and physico-mechanical evaluation of fast-dissolving valsartan polymeric drug delivery system by electrospinning method

  • Author/Authors

    Abbaspour, Mohammadreza Department of Pharmaceutics - School of Pharmacy - Mashhad University of Medical Sciences - Mashhad, Iran , Iraji, Pariya Department of Pharmaceutics - School of Pharmacy - Mashhad University of Medical Sciences - Mashhad, Iran , Mahmoudi, Zahra Department of Pharmaceutics - School of Pharmacy - Mashhad University of Medical Sciences - Mashhad, Iran , Rahiman, Niloufar Nanotechnology Research Center - Pharmaceutical Technology Institute - Mashhad University of Medical Sciences - Mashhad, Iran , Akhgari, Abbas Department of Pharmaceutics - School of Pharmacy - Mashhad University of Medical Sciences - Mashhad, Iran

  • Pages
    12
  • From page
    1683
  • To page
    1694
  • Abstract
    Chronic hypertension is a pervasive morbidity and the leading risk factor for cardiovascular diseases. Valsartan, as an antihypertensive drug, has low solubility and bioavailability. The application of orodispersible films of valsartan is suggested to improve its bioavailability. With this dosage form, the drug dissolves rapidly in saliva and is absorbed readily without the need for water. Materials and Methods: For this purpose, valsartan with polyvinylpyrrolidone (PVPK90) polymer were exposed to the electrospinning technique to construct orodispersible nanofilms. The optimum obtained nanofiber, selected by Design-Expert software, was evaluated in terms of mechanical strength for evaluation of the flexibility and fragility of the nanofibers. The drug content, wettability, and disintegration tests, as well as the release assessment of the nanofibers, were performed followed by DSC, FTIR, and XRD assays. Results: The uniform nanofibers’ diameter increased with the increase of the polymer concentration. The tensile test verified a stress reduction at the yield point as the polymer concentration increased. Then, the 492 nm nanofiber with above 90% drug encapsulation, containing 8% polymer and 18% valsartan made below 9 kV, was selected. The wetting time was less than 30 sec and over 90% of the drug was released in less than 2 min. The XRD and DSC studies also confirmed higher valsartan solubility due to the construction alternations in nanofibers. The FTIR examination indicated the chemical bonding between the drug and the polymer. Conclusion: The selected nanofibers of valsartan present the essential drug feature and acceptable drug release for further investigations.
  • Keywords
    Hypertension , Nanofiber , Polymers , Polyvinylpyrrolidone , Valsartan
  • Journal title
    Iranian Journal of Basic Medical Sciences
  • Serial Year
    2021
  • Record number

    2701395