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  1. Fulltext The stamp technique for direct Class II composite restorations: A case series
    Alshehadat SA, Halim MS, Carmen K, Fung CS
    J Conserv Dent, 2016 9 23;19(5):490-3.
    PMID: 27656074 DOI: 10.4103/0972-0707.190021
    BACKGROUND: "Stamp" technique is a new method for placing large composite restorations with accurate occlusal topography. It was introduced mainly to restore Class I cavities and erosively damaged teeth. This technique is indicated when the preoperative anatomy of the tooth is intact and not lost due to the carious lesion. A precise tooth-like filling an accurate functional occlusion is obtained when the stamp technique is applied. However, using this technique to restore Class II cavities is not established yet.

    AIM: To introduce modifications of the stamp technique that make it applicable to restore Class II composite restorations.

    MATERIALS AND METHODS: The traditional materials and tools used for direct composite restorations are needed with no additional instruments. Clinical illustrations and step-by-step description are provided in this paper.

    RESULTS AND CONCLUSION: Using the stamp technique to restore Class II cavities is achievable, simple and practical, and result in a very accurate anatomical restoration.

  2. Fulltext A Comparison of Culture Characteristics between Human Amniotic Mesenchymal Stem Cells and Dental Stem Cells
    Yusoff NH, Alshehadat SA, Azlina A, Kannan TP, Hamid SS
    Trop Life Sci Res, 2015 Apr;26(1):21-9.
    PMID: 26868590 MyJurnal
    In the past decade, the field of stem cell biology is of major interest among researchers due to its broad therapeutic potential. Stem cells are a class of undifferentiated cells that are able to differentiate into specialised cell types. Stem cells can be classified into two main types: adult stem cells (adult tissues) and embryonic stem cells (embryos formed during the blastocyst phase of embryological development). This review will discuss two types of adult mesenchymal stem cells, dental stem cells and amniotic stem cells, with respect to their differentiation lineages, passage numbers and animal model studies. Amniotic stem cells have a greater number of differentiation lineages than dental stem cells. On the contrary, dental stem cells showed the highest number of passages compared to amniotic stem cells. For tissue regeneration based on animal studies, amniotic stem cells showed the shortest time to regenerate in comparison with dental stem cells.
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