From Bench to Chairside: Collagen Scaffolds in Combination with Mesenchymal Stromal Cells for Gingival Augmentation.
Polina Koteneva, Nastasia Kosheleva, Alexey Fayzullin, Yana Khristidis, Egor Bunin, Yuri Efremov, Diana Zhukova, Sergey Tkachev, Aida Kulova, Timur Rasulov, Anna Vedyaeva, Tatiana Brailovskaya, Peter Timashev
Abstract
Open AccessBackground/Objectives: Gingival tissue deficiencies present significant treatment challenges. We investigated three xenogeneic collagen scaffolds-Fibro-Gide, FibroMATRIX, and Mucoderm-with and without human gingival MSCs for soft tissue augmentation. Methods: The study assessed scaffold properties (mechanical properties and micro-CT structure), cytocompatibility, ex vivo vascular growth stimulation (CAM-test), and in vivo effects in rabbit model. Results: All scaffolds were cytocompatible and maintained MSC viability via extract and contact cytotoxicity tests. Fibro-Gide showed the highest porosity at 78.5%, followed by FibroMATRIX at 64.3%, while Mucoderm had the lowest porosity at 33.2%. Mucoderm exhibited the greatest stiffness due to its dense structure, contrasting with the more similar mechanical properties of Fibro-Gide and FibroMATRIX. In an ex vivo HET-Cam model of the angiogenic response, Fibro-Gide exhibited reduced blood vessel length and blood flow rate compared to FibroMATRIX and Mucoderm. In vivo, Mucoderm resorbed completely, FibroMATRIX demonstrated optimal partial degradation, and Fibro-Gide retained most of its collagen structure. Conclusions: The FibroMATRIX with MSCs combination showed particularly promising results for enhancing tissue thickness and vascularization, suggesting this approach could significantly improve gingival regeneration outcomes.