References
- Bose S , VahabzadehS, BandyopadhyayA. Bone tissue engineering using 3D printing. Materials Today16(12), 496–504 (2013).
- Williams JM , AdewunmiA, SchekRMet al. Bone tissue engineering using polycaprolactone scaffolds fabricated via selective laser sintering. Biomaterials26(23), 4817–4827 (2005).
- Sherwood JK , RileySL, PalazzoloRet al. A three-dimensional osteochondral composite scaffold for articular cartilage repair. Biomaterials23(24), 4739–4751 (2002).
- Woodfield TBF , MaldaJ, de WijnJ, PetersF, RiesleJ, van BlitterswijkCA. Design of porous scaffolds for cartilage tissue engineering using a three-dimensional fiber-deposition technique. Biomaterials25(18), 4149–4161 (2004).
- Wang MO , VorwaldCE, DreherMLet al. Evaluating 3D-printed biomaterials as scaffolds for vascularized bone tissue engineering. Adv. Materials27(1), 138–144 (2015).
- Hockaday LA , KangKH, ColangeloNWet al. Rapid 3D printing of anatomically accurate and mechanically heterogeneous aortic valve hydrogel scaffolds. Biofabrication4(3), 035005 (2012).
- Kolesky DB , TrubyRL, GladmanAS, BusbeeTA, HomanKA, LewisJA. 3D Bioprinting of vascularized, heterogeneous cell-laden tissue constructs. Adv. Materials26(19), 3124–3130 (2014).
- Lozano R , StevensL, ThompsonBCet al. 3D printing of layered brain-like structures using peptide modified gellan gum substrates. Biomaterials67, 264–273 (2015).
- Tsang VL , ChenAA, ChoLMet al. Fabrication of 3D hepatic tissues by additive photopatterning of cellular hydrogels. FASEB J.21(3), 790–801 (2007).
- Lee W , LeeV, PolioSet al. On-demand three-dimensional freeform fabrication of multi-layered hydrogel scaffold with fluidic channels. Biotechnol. Bioeng.105(6), 1178–1186 (2010).
- Pati F , JangJ, HaD-Het al. Printing three-dimensional tissue analogues with decellularized extracellular matrix bioink. Nature Commun.5, 3935 (2014).
- Visser J , MelchelsFP, JeonJEet al. Reinforcement of hydrogels using three-dimensionally printed microfibres. Nature Commun.6, 6933 (2015).
- Sawkins MJ , MistryP, BrownBN, ShakesheffKM, BonassarLJ, YangJ. Cell and protein compatible 3D bioprinting of mechanically strong constructs for bone repair. Biofabrication7(3), 035004 (2015).