Use of a novel Screen–Enrich–Combine(-biomaterials) Circulating System to fill a 3D-printed open Ti6Al4V frame with mesenchymal stem cells/β-tricalcium phosphate to repair complex anatomical bone defects in load-bearing areas

Abstract: Background: Repairing complex anatomical load-bearing bone defects is difficult because it requires the restoration of the load-bearing function, reconstructing the anatomical shape, and repair by regenerated bone. We previously developed a Screen-Enrich-Combine(-biomaterials) Circulating System (SECCS) for rapid intraoperative enrichment of autologous bone marrow mesenchymal stem cells (MSCs) to enhance the osteogenic ability of porous bone substitutes. In this study, we prepared a 3D-printed Ti6A14V macropor… Show more

“…Tissue-engineered grafts intraoperatively obtained by cell seeding on the scaffold with the use of selective retention/filtration approach not only were tested in animal studies [ 113 ] but also were used for bone repair in patients with various bone pathologies. Implantation of β-TCP intraoperatively seeded with MSCs using Screen–Enrich–Combine Circulating System led to a higher percentage of newly formed bone in the critical size defect of the goat tibia [ 114 ] and in patients with fractures with depressed tibial plateau compared to β-TCP alone [ 11 ].…”

Intraoperative Creation of Tissue-Engineered Grafts with Minimally Manipulated Cells: New Concept of Bone Tissue Engineering In Situ

“…Tissue-engineered grafts intraoperatively obtained by cell seeding on the scaffold with the use of selective retention/filtration approach not only were tested in animal studies [ 113 ] but also were used for bone repair in patients with various bone pathologies. Implantation of β-TCP intraoperatively seeded with MSCs using Screen–Enrich–Combine Circulating System led to a higher percentage of newly formed bone in the critical size defect of the goat tibia [ 114 ] and in patients with fractures with depressed tibial plateau compared to β-TCP alone [ 11 ].…”

Intraoperative Creation of Tissue-Engineered Grafts with Minimally Manipulated Cells: New Concept of Bone Tissue Engineering In Situ

Cutting edge research on stem cell applications in joint, cartilage, and bone repair and regeneration

Vancomycin-encapsulated hydrogel loaded microarc-oxidized 3D-printed porous Ti6Al4V implant for infected bone defects: Reconstruction, anti-infection, and osseointegration