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Tissue integration and biodegradation of soft tissue substitutes with and without compression: an experimental study in the rat

Stefan P. Bienz, Cédryck Vaquette, Alexis Ioannidis, Christoph H. F. Hämmerle, Ronald E. Jung, Sašo Ivanovski, Daniel S. Thoma

2022Clinical Oral Investigations11 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: To analyze the influence of compression on tissue integration and degradation of soft tissue substitutes. MATERIAL AND METHODS: were implanted and used as carriers for soft tissue substitutes: a collagen matrix (MG), two volume-stable collagen matrices (FG/MGA), and a polycaprolactone scaffold(E). The volume-stable materials (FG/MGA/E) were further implanted with a twofold (2) and a fourfold (4) compression, created by the stacking of additional layers of the substitute materials. The samples were retrieved at 1, 2, and 12 weeks (10 groups, 3 time points, n = 5 per time point and group, overall, 150 samples). The area fraction of infiltrated fibroblasts and inflammatory cells was evaluated histologically. Due to within-subject comparisons, mixed models were conducted for the primary outcome. The level of significance was set at 5%. RESULTS: The area fraction of fibroblasts increased in all groups over time. At 12 weeks, the densely compressed materials FG4 (1.1%), MGA4 (1.7%), and MGA2 (2.5%) obtained lower values as compared to the other groups, ranging between 4.7 (E2) and 6.5% (MG). Statistically significant differences (p ≤ 0.05) were observed between groups FG4 vs MG/FG2/E/E4 as well as between MGA4 vs MG/FG2/E/E4 and E vs MGA2. CONCLUSIONS: Higher levels of compression led to delayed tissue integration. The effect of different compression levels was more distinct when compared to the differences between the materials. CLINICAL RELEVANCE: All biomaterials demonstrated tissue integration and a minimal concomitant inflammatory reaction. Clinically, it might be more favorable to obtain a sufficient flap release or to reduce the material size to improve the tissue integration processes.

Topics & Concepts

Soft tissueBiomedical engineeringCompression (physics)PolycaprolactoneMatrix (chemical analysis)ChemistryMaterials scienceSurgeryMedicineComposite materialPolymerCollagen: Extraction and CharacterizationTissue Engineering and Regenerative MedicineBone Tissue Engineering Materials