Yanru Ren ¹ Said Alkildani ² Kim Burckhardt ^1,2 Alexander Köwitsch ³ Sanja Stojanovic ^4,5 Stevo J. Najman ^4,5 Luo Liu ⁶ Mike Barbeck ^1*

• ¹ Department of Dermatology and Venerology, University Medical Center Rostock, Rostock, Germany
• ² BerlinAnalytix GmbH, Berlin, Baden-Württemberg, Germany
• ³ Biotrics bioimplants AG, Berlin, Baden-Württemberg, Germany
• ⁴ Department for Cell and Tissue Engineering, Faculty of Medicine, University of Niš, Niš, Serbia
• ⁵ Department of Biology and Human Genetics, Faculty of Medicine, Nis, Serbia
• ⁶ Beijing Advanced Innovation Center for Soft Matter Science and Engineering, College of Life Science and Technology, Beijing University of Chemical Technology, Beijing, Beijing Municipality, China

This study investigates the mechanical properties as well as in vitro and in vivo cyto-and biocompatibility of collagen membranes cross-linked with glutaraldehyde (GA), proanthocyanidins (PC), hexamethylendiisocyanate (HMDI) and 1-Ethyl-3-(3-dimethylaminopropyl)carbodiimide/Nhydroxysuccinimide (EC/NHS). A non-crosslinked membrane was used as reference control (RF). The initial in vitro cytotoxic analyses revealed that the PC, EC, and HMDI crosslinked membranes were cytocompatible, while the GA crosslinked membrane was cytotoxic and thus selected as positive control in the further in vivo study. Cross-linking enhances the tensile strength and collagenase resistance, effectively prolonging the membrane's standing time in vivo. Using (immune-) histochemistry and histomorphometrical analyses, the cellular inflammatory responses, tissue integration and vascularization patterns at 10-, 30-, and 90-days post-implantation in a subcutaneous implantation model in rats were analyzed. The PC membrane elicited the mildest inflammatory cell levels, akin to the RF membrane, while other groups induced an M1-dominated macrophage response and numerous multinucleated giant cells throughout the study period. EC membranes maintained structural stability up to 30 days post-implantation, similar to the GA group, whereas others collapsed prematurely. Concurrent with membrane collapse, transmembrane vascularization occurred across all groups. Histopathological and histomorphometry results reveal the intricate interplay of inflammatory cell populations in vascularization. These findings offer valuable insights into the pivotal role of cross-linkers in modulating mechanical properties and tissue responses of collagen membranes.