Bar et al., 2022
ViewHTML| Publication | Publication Date | Title |
|---|---|---|
| Sun et al. | Synthesis and properties of gelatin methacryloyl (GelMA) hydrogels and their recent applications in load-bearing tissue | |
| Theus et al. | Bioprintability: physiomechanical and biological requirements of materials for 3D bioprinting processes | |
| Fatimi et al. | Natural hydrogel-based bio-inks for 3D bioprinting in tissue engineering: a review | |
| Łabowska et al. | A review on the adaption of alginate-gelatin hydrogels for 3D cultures and bioprinting | |
| Xu et al. | Advances in the research of bioinks based on natural collagen, polysaccharide and their derivatives for skin 3D bioprinting | |
| Wang et al. | 3D printing of silk fibroin for biomedical applications | |
| Yahya et al. | Insights into the role of biopolymer aerogel scaffolds in tissue engineering and regenerative medicine | |
| Ma et al. | Recent advances in macroporous hydrogels for cell behavior and tissue engineering | |
| Roseti et al. | Three-dimensional bioprinting of cartilage by the use of stem cells: a strategy to improve regeneration | |
| Roacho-Pérez et al. | Artificial scaffolds in cardiac tissue engineering | |
| Hafezi et al. | Bioprinting and preliminary testing of highly reproducible novel bioink for potential skin regeneration | |
| Andersen et al. | 3D cell culture in alginate hydrogels | |
| Naranda et al. | Recent advancements in 3D printing of polysaccharide hydrogels in cartilage tissue engineering | |
| Kang et al. | Advanced techniques for skeletal muscle tissue engineering and regeneration | |
| Wang et al. | Fabrication of injectable, porous hyaluronic acid hydrogel based on an in-situ bubble-forming hydrogel entrapment process | |
| Park et al. | Engineered polymeric hydrogels for 3D tissue models | |
| Vajda et al. | Microvascular tissue engineering—A review | |
| Alzanbaki et al. | Engineered microgels—Their manufacturing and biomedical applications | |
| Stanco et al. | 3D bioprinting of human adipose-derived stem cells and their tenogenic differentiation in clinical-grade medium | |
| Liu et al. | Recent advances in decellularized matrix-derived materials for bioink and 3D bioprinting | |
| Zhong et al. | A novel 3D-printed silk fibroin-based scaffold facilitates tracheal epithelium proliferation in vitro | |
| Min et al. | Dual network hydrogels incorporated with bone morphogenic protein-7-loaded hyaluronic acid complex nanoparticles for inducing chondrogenic differentiation of synovium-derived mesenchymal stem cells | |
| Isaeva et al. | Cartilage formation in vivo using high concentration collagen-based bioink with MSC and decellularized ECM granules | |
| Bar et al. | Three-dimensional bio-printed cardiac patch for sustained delivery of extracellular vesicles from the interface | |
| Ichanti et al. | Characterization of tissue engineered endothelial cell networks in composite collagen-agarose hydrogels |