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Bakirci, Ezgi; Guenat, O T; Ahmad, S S; Gantenbein, B (2022). Tissue engineering approaches for the repair and regeneration of the anterior cruciate ligament: towards 3D bioprinted ACL-on-chip. European cells & materials eCM, 44, pp. 21-42. University of Wales 10.22203/eCM.v044a02
Bakirci, Ezgi; Tschan, Karin; May, Rahel D.; Ahmad, Sufian S; Kleer, Barbara; Gantenbein, Benjamin (2020). The importance of plasmin for the healing of the anterior cruciate ligament. Bone & joint research, 9(9), pp. 543-553. British Editorial Society of Bone & Joint Surgery 10.1302/2046-3758.99.BJR-2020-0048.R1
Frauchiger, Daniela Angelika; May, Rahel Deborah; Bakirci, Ezgi; Tekari, Adel; Chan, Samantha; Wöltje, Michael; Benneker, Lorin Michael; Gantenbein, Benjamin (2018). Genipin-Enhanced Fibrin Hydrogel and Novel Silk for Intervertebral Disc Repair in a Loaded Bovine Organ Culture Model. Journal of Functional Biomaterials, 9(3) MDPI 10.3390/jfb9030040
Gantenbein, Benjamin; Frauchiger, Daniela A.; May, Rahel Deborah; Bakirci, Ezgi; Rohrer, Urs; Grad, Sibylle (2019). Developing Bioreactors to Host Joint-Derived Tissues That Require Mechanical Stimulation. In: Reference Module in Biomedical Sciences. Elsevier 10.1016/B978-0-12-801238-3.65611-8
Frauchiger, Daniela Angelika; May, Rahel Deborah; Bakirci, Ezgi; Wöltje, M; Benneker, Lorin Michael; Gantenbein, Benjamin (25 June 2018). Annulus fibrosus repair approach combining genipin-enhanced fibrin hydrogel and engineered silk fleece-membrane composite. eCM online periodical, Collection 3, P16-P16. AO Foundation
Bakirci, Ezgi; Guenat, Olivier Thierry; Hugi, Andreas; Ahmad, Sufian; Kohl, Sandro; Gantenbein, Benjamin (2017). Optimization of 3D printed hydrogels with primary cells for tissue engineering (Unpublished). In: AOSPine Masters Symposium-Novel and Emerging Technologies in Translational Medicine. Bern. 22 September 2017.
Krismer, Anna; Geissberger, Christian Andreas; Bakirci, Ezgi; Cabra, Romina Silvia; Kohl, Sandro; Gantenbein, Benjamin (2017). Strain-controlled organ culture of bone-ligament-bone human-derived anterior cruciate ligaments an ex-vivo model to investigate degenerative and regenerative therapy. European cells & materials eCM, 33(Suppl. 2), p. 228. University of Wales