Results : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
Results : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
author: Martin Gosau, Sandra Viale-Bouroncle, Hannah Eickhoff, Esthera Prateeptongkum, Anja Reck, W Gtz, Christoph Klingelhffer, Steffen | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
The soft material PA was also treated with the extracellular matrix protein collagen to improve cell adherence. We tested representatively DFCs with collagen I modified PA. DFCs adhered and proliferated on modified PA, but, however, the specific ALP activity was reduced in comparison to that of DFCs on standard cell culture dishes (Figure 6). This reduction of the specific ALP activity was similar to that of silicone.
Serial posts:
- Abstract : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions
- Background : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [1]
- Background : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
- Methods : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [1]
- Methods : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
- Methods : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [3]
- Methods : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [4]
- Results : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [1]
- Results : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
- Discussion : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [1]
- Discussion : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
- Conclusions : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions
- References : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [1]
- References : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
- References : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [3]
- Acknowledgement : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions
- Author information : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [1]
- Author information : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions [2]
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- Additional file : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions
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- About this article : Evaluation of implant-materials as cell carriers for dental stem cells under in vitro conditions
- Figure 1. Cell attachment on tested materials. (A) Relative cell adherence of DFCs and dNC-PCs; (B) dental cells did little adhere on PA; representative pictures of DFCs. : Evaluation of implant
- Figure 2. Cell proliferation of dNC-PCs and DFCs on tested materials. (A) and (B) Relative cell numbers; (C) spheroid cell clusters on silicone (representative pictures for DFCs); Silicone (24 and 48 h). : Evaluation of implant
- Figure 3. Evaluation of programmed cell death (apoptosis) in dental stem cells. (A) Flow cytometry analyses (for details materials and methods) show percentage of vital cells (black number), apoptotic cells (blue number), and dead cells (red number). (B) Western blot analyses show the expression of the pro-apoptotic marker BAX and the anti-apoptotic marker BCL2. : Evaluation of implant
- Figure 4. Osteogenic differentiation of dental stem cells. Normalized ALP activity of dNC-PCs and DFCs on AP and SB (A) and on silicone (B). Cells were differentiated on standard cell culture dishes for control. : Evaluation of implant
- Figure 5. Evaluation of osteogenic differentiation. (A) Clustergram of PCR-array results; (B-C) histology of differentiated dental cells on AP (B) and SB (C). Representative results are shown for dNC-PCs. : Evaluation of implant
- Figure 6. Cultivation and osteogenic differentiation of DFCs on PA after modification with collagen I. (Left) Relative cell number and (Right) normalized ALP activity. : Evaluation of implant