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1.
Artigo em Inglês | WPRIM | ID: wpr-896290

RESUMO

BACKGROUND@#Loss of the dental and paradental tissues resulting from trauma, caries or from systemic diseasesconsidered as one of the most significant and frequent clinical problem to the healthcare professionals. Great attempts havebeen implemented to recreate functionally, healthy dental and paradental tissues in order to substitute dead and diseasedtissues resulting from secondary trauma of car accidents, congenital malformations of cleft lip and palate or due to acquireddiseases such as cancer and periodontal involvements.METHOD: An extensive literature search has been done on PubMed database from 2010 to 2019 about the challenges ofengineering a biomimetic tooth (BioTooth) regarding basic biology of the tooth and its supporting structures, strategies,and different techniques of obtaining biological substitutes for dental tissue engineering. @*RESULTS@#It has been found that great challenges need to be considered before engineering biomimetic individual parts of thetooth such as enamel, dentin-pulp complex and periodontium. In addition, two approaches have been adopted to engineer aBioTooth.The first one was to engineer a BioTooth as an individual unit and the other was to engineer a BioToothwith its supporting structures. @*CONCLUSION@#Engineering of BioTooth with its supporting structures thought to be in the future will replace the traditionaland conventional treatment modalities in the field of dentistry. To accomplish this goal, different cell lines and growthfactors with a variety of scaffolds at the nano-scale level are now in use. Recent researches in this area of interest arededicated for this objective, both in vivo and in vitro. Despite progress in this field, there are still many challenges ahead andneed to be overcome, many of which related to the basic tooth biology and its supporting structures and some others related tothe sophisticated techniques isolating cells, fabricating the needed scaffolds and obtaining the signaling molecules.

2.
Artigo em Inglês | WPRIM | ID: wpr-903994

RESUMO

BACKGROUND@#Loss of the dental and paradental tissues resulting from trauma, caries or from systemic diseasesconsidered as one of the most significant and frequent clinical problem to the healthcare professionals. Great attempts havebeen implemented to recreate functionally, healthy dental and paradental tissues in order to substitute dead and diseasedtissues resulting from secondary trauma of car accidents, congenital malformations of cleft lip and palate or due to acquireddiseases such as cancer and periodontal involvements.METHOD: An extensive literature search has been done on PubMed database from 2010 to 2019 about the challenges ofengineering a biomimetic tooth (BioTooth) regarding basic biology of the tooth and its supporting structures, strategies,and different techniques of obtaining biological substitutes for dental tissue engineering. @*RESULTS@#It has been found that great challenges need to be considered before engineering biomimetic individual parts of thetooth such as enamel, dentin-pulp complex and periodontium. In addition, two approaches have been adopted to engineer aBioTooth.The first one was to engineer a BioTooth as an individual unit and the other was to engineer a BioToothwith its supporting structures. @*CONCLUSION@#Engineering of BioTooth with its supporting structures thought to be in the future will replace the traditionaland conventional treatment modalities in the field of dentistry. To accomplish this goal, different cell lines and growthfactors with a variety of scaffolds at the nano-scale level are now in use. Recent researches in this area of interest arededicated for this objective, both in vivo and in vitro. Despite progress in this field, there are still many challenges ahead andneed to be overcome, many of which related to the basic tooth biology and its supporting structures and some others related tothe sophisticated techniques isolating cells, fabricating the needed scaffolds and obtaining the signaling molecules.

3.
Artigo em Inglês | WPRIM | ID: wpr-29542

RESUMO

BACKGROUND AND OBJECTIVES: The imperative role of dental pulp stem cells (DPSCs) in regenerative therapy demands an in-vitro expansion which must deal with the safety and ethical problems associated with fetal bovine serum (FBS). The primary aim of this study was to compare the effects of human platelet rich fibrin (hPRF) exudate Vs FBS on proliferation and osteodifferentiation of human dental pulp stem cells (hDPSCs). The secondary one was to determine the optimum concentration of hPRF exudate inducing hDPSCs proliferation and osteodifferentiation. METHODS: The direct method was used to prepare hPRF exudate. hDPSCs were isolated from impacted mandibular third molars of twelve donors by the outgrowth method. For cell viability and proliferation rate testing, 96 well plates were used and the assay was done in duplicate and the trial repeated four times under the same conditions. Six wells were used to contain 10% FBS, serum free media, 1%, 5%, 10% and 20% concentrations of hPRF exudates, respectively. The proliferation assay was carried out by MTS tetrazolium cell proliferation assay kit and Elisa reader. The study design for osteodifferentiation protocol was exactly as the proliferation one and instead the assay was carried out by alizarin red with Elisa reader. RESULTS: Compared to 10% FBS, 10% hPRF exudate was the optimum concentration for hDPSCs proliferation, while 1% hPRF exudate was the optimum concentration for osteodifferentiation of hDPSCs. CONCLUSIONS: Avoiding the risk of zoonosis which may be occurred with FBS, it is recommended to use 10% hPRF exudate for proliferation and 1% for osteodifferentiation.


Assuntos
Humanos , Plaquetas , Proliferação de Células , Sobrevivência Celular , Meios de Cultura Livres de Soro , Polpa Dentária , Ensaio de Imunoadsorção Enzimática , Exsudatos e Transudatos , Fibrina , Métodos , Dente Serotino , Células-Tronco , Doadores de Tecidos
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