Average cell viability levels of human dental pulp stem cells: an accurate combinatorial index for quality control in tissue engineering

Background aims. One of the most important issues in tissue engineering (TE) is the search for a suitable stem cell reservoir with optimal cell viability levels for the development of new tissues relevant for therapeutic needs. The aim of this study was to evaluate the cell viability levels of 10 sequential cell passages of human dental pulp stem cells (hDPSC) to determine their potential for TE techniques. Methods. To assess the average cell viability levels of hDPSC, four cell viability assays were used in a combinatorial approach: trypan blue exclusion test, water-soluble tetrazolium 1 assay, live/dead assay and electron probe x-ray microanalysis. Results. The results showed that cell viability as determined by trypan blue staining and live/dead assays was greater than 85%, with a significant decrease at the second passage (P < 0.05) and a significant increase at the ninth passage (P < 0.05). Electron probe x-ray microanalysis showed that the highest cell viability corresponded to the ninth passage, with the lowest K/Na values found at the third passage. No statistical differences were found among the different passages for the water-soluble tetrazolium 1 assay (P = 0.219). Conclusions. Assessment of average cell viability levels showed that the highest viability of hDPSC was reached after nine passages, suggesting that this passage would be the most adequate for use in TE protocols.