Search Results (3)

Currently, an increasing number of patients are undergoing extensive surgeries to restore the mucosa of the gums in the area of recessions. The use of a connective tissue graft from the palate is the gold standard of such surgical treatment, but complications, especially in cases of extensive defects, have led to the development of approaches using xenogeneic collagen matrices and methods to stimulate their regenerative and vasculogenic potential. This study investigated the potential of a xenogeneic scaffold derived from porcine skin Mucoderm and injections of the pCMV-VEGF165 plasmid (‘Neovasculgen’) to enhance soft gingival tissue volume and vascularization in an experimental model in rabbits. In vitro studies demonstrated the biocompatibility of the matrix and plasmid with gingival mesenchymal stem cells, showing no toxic effects and supporting cell viability and metabolic activity. In the in vivo experiment, the combination of Mucoderm and the pCMV-VEGF165 plasmid (0.12 mg) synergistically promoted tissue proliferation and vascularization. The thickness of soft tissues at the implantation site significantly increased with the combined application (3257.8 ± 1093.5 µm). Meanwhile, in the control group, the thickness of the submucosa was 341.8 ± 65.6 µm, and after the implantation of only Mucoderm, the thickness of the submucosa was 2041.6 ± 496.8 µm. Furthermore, when using a combination of Mucoderm and the pCMV-VEGF165 plasmid, the density and diameter of blood vessels were notably augmented, with a mean value of 226.7 ± 45.9 per 1 mm² of tissue, while in the control group, it was only 68.3 ± 17.2 per 1 mm² of tissue. With the application of only Mucoderm, it was 131.7 ± 37.1 per 1 mm² of tissue, and with only the pCMV-VEGF165 plasmid, it was 145 ± 37.82 per 1 mm² of the sample. Thus, the use of the pCMV-VEGF165 plasmid (‘Neovasculgen’) in combination with the xenogeneic collagen matrix Mucoderm potentiated the pro-proliferative effect of the membrane and the pro-vascularization effect of the plasmid. These results indicate the promising potential of this innovative approach for clinical applications in regenerative medicine and dentistry. Full article

The gingiva is the target site for some topical drugs, but the permeability of human gingiva has not been systematically evaluated. Pigs are a common animal model for in vitro membrane transport studies. The objectives of this study were to: (a) determine the permeability coefficients of freshly excised human gingiva using model permeants, (b) compare the permeability coefficients of fresh human gingiva with those of fresh porcine gingiva, (c) evaluate the effect of freezing duration on the permeability of porcine gingiva, and (d) compare the permeability coefficients of fresh and cadaver (frozen) human gingiva. A goal was to examine the feasibility of using porcine gingiva as a surrogate for human gingiva. The potential of using frozen tissues in permeability studies of gingiva was also examined. Fresh and frozen porcine gingiva, fresh human gingiva, and frozen cadaver human gingiva were compared in the transport study with model polar and lipophilic permeants. The fresh porcine and human tissues showed similarities in the “permeability coefficient vs. octanol–water distribution coefficient” relationship. The porcine gingiva had a lower permeability than that of the human, with a moderate correlation between the permeability of the fresh porcine and fresh human tissues. The permeability of the porcine tissues for the model polar permeants increased significantly after the tissues were frozen in storage. Moreover, the frozen human cadaver tissue could not be utilized due to the high and indiscriminating permeability of the tissue for the permeants and large tissue sample-to-sample variabilities. Full article

A new design of an alveolar distractor using nickel–titanium (NiTi) open-coil springs was developed and investigated to produce distraction forces against the tensile forces of porcine attached gingiva to simulate human gingiva. We subjected 15 mm long NiTi open-coil springs (Highland and ORMCO) with three levels of forces (light, medium and heavy) to mechanical testing in a 37 ± 1 °C water bath. Ten strips of porcine mandibular attached gingiva were subjected to tensile tests to determine the resistance force. The forces from the springs were compared with the tensile forces from the porcine attached gingiva. Data between groups were analyzed with independent-samples T-tests (p-value < 0.05). The tensile strength and the Young modulus were greater in buccal compared to lingual porcine attached gingiva. Compared to other spring dimensions and companies, forces generated from 0.014 × 0.036″ ORMCO springs were the highest and could overcome the tensile resistance from porcine attached gingiva over the longest distraction range of 1.6 mm. This preliminary in vitro study introduced a new design of an alveolar distractor incorporated with NiTi open-coil springs that could generate light and continuous forces to overcome the resistance from porcine attached gingiva. Full article