Baptista et al., 2024
| Publication | Publication Date | Title |
|---|---|---|
| Park et al. | Applications of biomaterials in 3D cell culture and contributions of 3D cell culture to drug development and basic biomedical research | |
| Ren et al. | Developments and opportunities for 3D bioprinted organoids | |
| Kook et al. | Design of biomimetic cellular scaffolds for co-culture system and their application | |
| Chaicharoenaudomrung et al. | Three-dimensional cell culture systems as an in vitro platform for cancer and stem cell modeling | |
| Huang et al. | Biopolymer-based microcarriers for three-dimensional cell culture and engineered tissue formation | |
| Badr-Eldin et al. | Three-dimensional in vitro cell culture models for efficient drug discovery: Progress so far and future prospects | |
| Wolf et al. | Biomanufacturing human tissues via organ building blocks | |
| Vera et al. | Engineering tissue barrier models on hydrogel microfluidic platforms | |
| Imparato et al. | Organ on chip technology to model cancer growth and metastasis | |
| Axpe et al. | Applications of alginate-based bioinks in 3D bioprinting | |
| Park et al. | Tissue engineering and regenerative medicine 2017: a year in review | |
| Vajda et al. | Microvascular tissue engineering—A review | |
| Bassi et al. | Advanced multi-dimensional cellular models as emerging reality to reproduce in vitro the human body complexity | |
| Correia Carreira et al. | 3D bioprinting: the emergence of programmable biodesign | |
| Ryma et al. | A print‐and‐fuse strategy for sacrificial filaments enables biomimetically structured perfusable microvascular networks with functional endothelium inside 3D hydrogels | |
| Chameettachal et al. | 3D bioprinting: recent trends and challenges | |
| Biju et al. | Role of three-dimensional cell culture in therapeutics and diagnostics: an updated review | |
| Kim et al. | Bioprinting methods for fabricating in vitro tubular blood vessel models | |
| Hagenbuchner et al. | 3D bioprinting: novel approaches for engineering complex human tissue equivalents and drug testing | |
| Chae et al. | 3D bioprinting strategy for engineering vascularized tissue models | |
| Kinoshita et al. | Fabrication of multilayered vascular tissues using microfluidic agarose hydrogel platforms | |
| Baptista et al. | Bioprinting using organ building blocks: spheroids, organoids, and assembloids | |
| Justin et al. | Multi-casting approach for vascular networks in cellularized hydrogels | |
| Jo et al. | Bioprinting-assisted tissue assembly to generate organ substitutes at scale | |
| Williams et al. | Engineering three-dimensional vascularized cardiac tissues |