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Differences in Characteristics of Titanium Implant Prototypes with Surface Modification Using H2O2, NaOCl, and UV Light

Dental implants are one of the treatments used to treat tooth loss. One of
the materials commonly used as dental implants is titanium which ...

  • CodeCallNoLokasiKetersediaan
    ITMKG1 - 202202 620.118 Nam DJatinangor (ITMKG)Tersedia namun tidak untuk dipinjamkan - No Loan
  • Perpustakaan
    Fakultas Kedokteran Gigi
    Judul Seri
    -
    No. Panggil
    620.118 Nam D
    Penerbit FKG Unpad : FKG UNPAD JATINANGOR.,
    Deskripsi Fisik
    -
    Bahasa
    English
    ISBN/ISSN
    160110180106
    Klasifikasi
    620.118
    Tipe Isi
    -
    Tipe Media
    -
    Tipe Pembawa
    -
    Edisi
    -
    Subyek
    NaOCl
    surface modification
    H2O2
    UV light
    titanium implant
    Info Detil Spesifik
    -
    Pernyataan Tanggungjawab
  • Dental implants are one of the treatments used to treat tooth loss. One of
    the materials commonly used as dental implants is titanium which has good
    mechanical strength, corrosion resistance, and biocompatibility. However,
    titanium material is bioinert and has a low osteoconduction capacity, thus the
    osseointegration phenomenon becomes less optimal. This osseointegration ability
    is influenced by the surface properties. Therefore, surface modifications were
    carried out using H2O2, NaOCl, and UV light. This study aims to determine the
    effect of H2O2, NaOCl, and UV light on the topography and elemental composition
    of the titanium surface. Surface modification was carried out on pure titanium
    grade IV using H2O2, NaOCl, and UV light for 24 hours. The surface was
    characterized based on the topographic appearance and elemental composition
    using Scanning Electron Microscope (SEM) and Energy Dispersive Spectroscopy
    (EDS). There are differences in the surface appearance and composition of the
    samples with the use of H2O2 and NaOCl, while the UV light treatment has a similar
    appearance and composition to the samples without treatment. Surface
    modification using H2O2 produced a micro-roughness appearance and had a
    higher oxygen composition than the use of NaOCl and UV light.
    Keywords: H2O2, NaOCl, surface modification, titanium implant, UV light

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