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International Journal of Bioprinting Applications of 3D printing in aging
Ref [13] [80] [81] [82] [83] [87] [104] [105] [106] [107] [108] [109] [110] [111] [112] [113] [114] [116]
3D printing brain like structure. Promote neuronal differentiation of NSCs. Deliver neuronal cells and stimulate their differentiation. Personalized dose manufacturing; appropriate drug release 3D-printed levodopa-loaded neural tissue scaffolds to treat Improve patient compliance and satisfaction with non- invasive ventilators (e.g., BIPAP/CPAP). Promote osteogenesis and angiogenesis by mimicking the microstructure and mechanical characteristics of
Significance curve. Parkinson’s disease. cancellous bone. osteogenic capacity. Promote osteogenesis. regeneration. arthroplasty.
3D Bioprinting technique Material extrusion (DIW) Vat photopolymerization (SLA) Vat photopolymerization (2PP) Material extrusion (FDM) Material extrusion (DIW) Vat photopolymerization (SLA) Powder bed fusion (SLM) Material extrusion (DIW) Vat photopolymerization (SLA) Vat photopolymerization (SLA) Vat photopolymerization (DLP) Material extrusion (FDM) Material extrusion (FDM/ MEW) Powder bed fusion (SLM) Powder bed fusion (EBM) Powder bed
Primary cortical neurons of Mouse macrophage cells
Table 2. Summary of applications of 3D printing in aging
Cell types mouse mNSC / / hADMSC / rBMSCs MC3T3-E1 cells Rat model hBMSCs MC3T3 rBMSCs Osteoblast OP-BMSCs rBMSCs OP-BMSCs ATDC5 cell line
Materials RGD-GG GelMA/DA GelMA-MENP Eudragit EPO/ POLYOX N80/Pramipexole PLA/CS Compliant silicone layer Ti6Al4V/GelMA CDHA/PLGA HA/polyfunctional acrylic resins PTMC/HA HA/UA/PEGDA PHBV/CaSH/CS PCL Ti6Al4V/ICA@MOF Ti6Al4V/poloxamer 407 Ti6Al4V/poloxamer 407/99Tc-MDP Ti6Al4V Sodium alginate
Body system Nervous system Musculoskeletal system
Volume 9 Issue 4 (2023) 249 https://doi.org/10.18063/ijb.732
