Table 2.
Proposed fabrication methods for tissue scaffold meta-biomaterials.
| Target | Desired Function/Range | Biomaterials/Bioinks Composition | Proposed Fabrication | Fabrication Challenge |
| Articular cartilage | Anisotropic and auxetic deformation (Poisson’s ratio <0) | Chondrocyte/stem-cell laden natural hydrogels (collagen gel) or polymers | SLA-based AM DLP-based AM |
Stability, flexibility Stability, resolution |
| Cortical bone | Extreme stiffness/high toughness (elastic modulus > 100 MPa; strength > 500 MPa) | Osteoblast/stem-cell laden natural hydrogels or polymers, acellular metals, ceramics/phosphate paste | Nozzle-based AM Nozzle-based AM NLS-based AM, SLS/SLM-based AM |
Speed, composition Strength, speed, fidelity Surface properties (porosity) |
| Dermis | Super-elasticity (total strains > 100%) | Natural hydrogels or polymers loaded with/without keratinocytes | Conventional, nozzle-based AM | Mold precision, ink selection |
| Blood vessels | Time-based volume variations (4D printing; self-assembly) | Natural hydrogels or soft polymers seeded by endothelial cells | DLP/TPA-based AM DLP-based AM |
Repeatability, assembly Fabrication resolution |