Cytotoxicity of HA-TCP Scaffold on Human Umbilical Cord Mesenchymal Stem Cells using MTT Assay

Ariestania, Vivin; Hendrijantini, Nike; Prahasanti, Chiquita; Prasetyo, Eric Priyo; Kuntjoro, Mefina; Sari, Rima Parwati; Maharani, Aulia Dwi

doi:10.30880/ijie.2022.14.012

Cited by 2 publications

(1 citation statement)

References 16 publications

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“…14 In vitro studies regarding the use of hUCMSCs have been previously conducted. [15][16][17] These cells have potential for use in regeneration. [18][19][20] They act as osteoprogenitors and promote bone formation.…”

Section: Introductionmentioning

confidence: 99%

Bone formation and mineralization around the implant in osteoporotic animal models enhanced by mesenchymal stem cells

Hendrijantini,

Kuntjoro,

Agustono

et al. 2024

Dent. J.

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Background: Poor bone quality, sometimes caused by osteoporosis, can lead to dental implant failure. Human umbilical cord mesenchymal stem cells (hUCMSCs) can differentiate into osteoblasts and offer an alternative therapy for poor bone conditions. Purpose: This study aims to evaluate the effect of hUCMSCs induction on the extent of osseointegration by the new bone formation area of dental implants in osteoporotic animal models. Methods: The samples were divided into two groups, i.e., control and induced hUCMSCs groups at different times. An ovariectomy was performed to assess the osteoporosis condition. The control group was injected using gelatin, and the treatment group was administered hUCMSCs. Terminations were conducted at 2 and 4 weeks, respectively. The collected samples were then subjected to histological examination to analyze new bone formation and its proportion. In addition, alkaline phosphatase staining was also performed to evaluate the mineralization area. The data was analyzed using the one-way analysis of variance (ANOVA). Results: Both for new bone formation area as well as the proportion of new bone, it was observed that the best results were in the group with induction of hUCMSCs at 2 weeks. Alkaline phosphatase staining also confirmed that the highest mineralization was observed in the same group. Conclusion: hUCMSCs induced new bone formation in the implant placement in osteoporotic animal models.

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Section: Introductionmentioning

confidence: 99%

Bone formation and mineralization around the implant in osteoporotic animal models enhanced by mesenchymal stem cells

Hendrijantini,

Kuntjoro,

Agustono

et al. 2024

Dent. J.

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A review of tissue engineering in regenerative endodontic treatment

Prasetyo,

Wahjuningrum,

Sampoerno

et al. 2024

CDJ

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Background: Regenerative endodontic treatments are classified based on approach in the procedures and principles. One is cell-free approach that involves a revitalization procedure to achieve continued root growth while the other is cell-based approach which involves pulp/dentin regeneration through isolation and ex vivo expansion of stem cells seeded in the scaffold and then transplanted into the canal space. Technically, the cell-free approach is simpler than cell-based approach because the former does not concern about external stem cell isolation and culture. Currently, the gold standard and the one that has been clinically performed is cell-free approach. Cell-based approach is still not a standard because currently the cell-based approach is still in the clinical trial stage. Purpose: to evaluate the biological basis and clinical protocols recently used in regenerative endodontic treatment and discuss potentially future treatment approaches. Review: The literature review was searched in PUBMED with the keywords: immature permanent teeth, pulp revascularization, stem cells and regenerative endodontics. The regenerative endodontic treatments with various procedures and techniques result in a significant increase in root length and dentinal wall thickness. Stimulation of stem cells in apical root canal system is required to induce tissue formation and continued root maturation. Conclusion: The success of regenerative endodontic therapy relies on the development of a technique that enables clinicians to create functional pulp tissue within cleaned and shaped root canal systems. It is hoped that further research studies are required to define advantages and limitations of cell-free and cell-based approach.

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Cytotoxicity of HA-TCP Scaffold on Human Umbilical Cord Mesenchymal Stem Cells using MTT Assay

Cited by 2 publications

References 16 publications

Bone formation and mineralization around the implant in osteoporotic animal models enhanced by mesenchymal stem cells

Bone formation and mineralization around the implant in osteoporotic animal models enhanced by mesenchymal stem cells

A review of tissue engineering in regenerative endodontic treatment

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