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A 3D‐Printed Assemblable Bespoke Scaffold as a Versatile Microcryogel Carrier for Site‐Specific Regenerative Medicine

Seunghun S. Lee, Nicole Kleger, Gisela Kuhn, Helen Greutert, Xiaoyu Du, Thijs Smit, André R. Studart, Stephen J. Ferguson

2023Advanced Materials15 citationsDOIOpen Access PDF

Abstract

Advances in additive manufacturing have led to diverse patient-specific implant designs utilizing computed tomography, but this requires intensive work and financial implications. Here, Digital Light Processing is used to fabricate a hive-structured assemblable bespoke scaffold (HIVE). HIVE can be manually assembled in any shape/size with ease, so a surgeon can create a scaffold that will best fit a defect before implantation. Simultaneously, it can have site-specific treatments by working as a carrier filled with microcryogels (MC) incorporating different biological factors in different pockets of HIVE. After characterization, possible site-specific applications are investigated by utilizing HIVE as a versatile carrier with incorporated treatments such as growth factors (GF), bioceramic, or cells. HIVE as a GF-carrier shows a controlled release of bone morphogenetic protein/vascular endothelial growth factor (BMP/VEGF) and induced osteogenesis/angiogenesis from human mesenchymal stem cells (hMSC)/human umbilical vein endothelial cells (HUVECs). Furthermore, as a bioceramic-carrier, HIVE demonstrates enhanced mineralization and osteogenesis, and as a HUVEC carrier, it upregulates both osteogenic and angiogenic gene expression of hMSCs. HIVE with different combinations of MCs yields a distinct local effect and successful cell migration is confirmed within assembled HIVEs. Finally, an in vivo rat subcutaneous implantation demonstrates site-specific osteogenesis and angiogenesis.

Topics & Concepts

Materials scienceAngiogenesisMesenchymal stem cellScaffoldUmbilical veinBiomedical engineeringBone morphogenetic protein 2Regenerative medicineVascular endothelial growth factorCell biologyBioceramicStem cellNanotechnologyIn vitroBiologyCancer researchVEGF receptorsMedicineBiochemistryBone Tissue Engineering Materials3D Printing in Biomedical ResearchBone and Dental Protein Studies