The data collected from the articles on the field of application of mesenchymal cells of periodontal origin
| Purpose of the study | Concrete results | Evasive results |
|---|---|---|
| Field of application | Li W et al. 2022 [20]—Mesenchymal cells from periapical lesions demonstrate potential use for dental pulp regeneration. | Wang D et al. 2019 [15]—Cells from the neural crest can be used for nerve repair as they have a reduced rejection ratio compared to others. |
| Gaubys A et al. 2018 [16]—Regeneration in higher ratios occurs in cementum and in lower ratios in alveolar bone. | Soudi A et al. 2021[7]—Mesenchymal cells have the potential to be used in tissue regeneration. | |
| Padial-Molina M et al. 2019 [41]—The effect of osteogenic differentiation in vitro is confirmed. | Roato I et al. 2021 [29]—Different anatomical origins may affect the ability to differentiate into specific tissues. | |
| Melms H et al. 2020 [39]—Same osteogenic differentiation but low adipogenic differentiation periodontal ligament cells compared to pulpal ones. | Wang LH et al. 2022 [12]—Different and numerous progenitors of mesenchymal cells have been hypothesized that, depending on their potential, they can be used for wound healing and even for partial recovery of organ function. | |
| Ma L et al. 2019 [19]—Cells of pulp origin are more resistant to lipopolysaccharide-induced apoptosis compared to those of bone marrow origin and are therefore used for periodontal regeneration more. | 0 article | |
| Lee E et al. 2021 [40]—Lack of hemopoietic markers in pulp cells, cementum-attached protein is not found in any of the types of oral mesenchymal cells. | 0 article | |
| Total | 6 articles—16% | 4 articles—11% |