Pınar Ercal scite author profile

The treatment of bone that is impaired due to disease, trauma or tumor resection creates a challenge for both clinicians and researchers. Critical size bone defects are conventionally treated with autografts which are associated with risks such as donor site morbidity and limitations like donor shortage. Bone tissue engineering has become a promising area for the management of critical size bone defects by the employment of biocompatible materials and the discovery of novel stem cell sources. Mesenchymal stem cells (MSCs) can be isolated with ease from various dental tissues including dental pulp stem cells, stem cells from apical papilla, dental follicle stem cells, stem cells from human exfoliated deciduous teeth, periodontal ligament stem cells, gingival stem cells and tooth germ derived stem cells. Outcomes of dental MSC mediated bone tissue engineering is explored in various in vivo and in vitro preclinical studies. However, there are still obscurities regarding the mechanisms underlying in MSC mediated bone regeneration and challenges in applications of dental stem cells. In this review, we summarized dental stem cell sources and their characterizations, along with currently used biomaterials for cell delivery and future perspectives for dental MSCs in the field of bone tissue engineering. Further efforts are necessary before moving to clinical trials for future applications.

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A Current Overview of Scaffold-Based Bone Regeneration Strategies with Dental Stem Cells

Ercal

Peközer

2020

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Dentin-Pulp Tissue Regeneration Approaches in Dentistry: An Overview and Current Trends

Şişmanoğlu

Ercal

2020

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The cytotoxic effects of various endodontic irrigants on the viability of dental mesenchymal stem cells

Şişmanoğlu

Ercal

2021

Aust Endodontic J

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This study aimed to evaluate cytotoxic effects of various irrigation solutions used in regenerative endodontic treatments (RETs) on mesenchymal stem cells, and further examine the long-term effect of hypochlorous acid (HOCl) on the cell viability and alkaline phosphatase (ALP) activity. Stem cells were exposed to various concentrations of NaOCl, EDTA, chlorhexidine (CHX), etidronic acid (HEDP)/NaOCl combination and HOCl. HOCl was tested for its effects on ALP activity up to 21 days. Additionally, cell viability was measured fluorescently using calcein AM. The most cytotoxic irrigant was CHX even with the lowest concentration. NaOCl and HEDP/NaOCl with 1:100 dilution decreased viability to around 40%. HOCl showed the lowest cytotoxicity among all tested irrigants. HOCl also showed no significant reduction in ALP activity compared with the controls. The cytotoxicity of endodontic irrigants was time and concentration dependent. HOCl demonstrated promising results regarding viability and ALP activity, since RETs require host stem cell survival.

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Pınar Ercal

Influence of different surface treatments and universal adhesives on the repair of CAD-CAM composite resins: An in vitro study

Dental Stem Cells in Bone Tissue Engineering: Current Overview and Challenges

A Current Overview of Scaffold-Based Bone Regeneration Strategies with Dental Stem Cells

Dentin-Pulp Tissue Regeneration Approaches in Dentistry: An Overview and Current Trends

The cytotoxic effects of various endodontic irrigants on the viability of dental mesenchymal stem cells

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