2020
DOI: 10.1089/ten.tea.2019.0298
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Bioprinting 101: Design, Fabrication, and Evaluation of Cell-Laden 3D Bioprinted Scaffolds

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Cited by 142 publications
(101 citation statements)
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“…Among these techniques, the extrusion-based bioprinting has become more popular (Fig. 5 c) because hydrogel precursors having low‐shear viscosities can be used for printing and it is able to deposit high cell densities, similar to the target tissue structure [ 202 ]. Although bioprinting techniques have the same principles of the methods explained in previous “ 3D printing technologies based on stimulation used ” section, they may have some differences due to the need for adaptation not to adversely influence the living cells.…”
Section: D Printing Of Bone Scaffold Based On Cad Modelmentioning
confidence: 99%
“…Among these techniques, the extrusion-based bioprinting has become more popular (Fig. 5 c) because hydrogel precursors having low‐shear viscosities can be used for printing and it is able to deposit high cell densities, similar to the target tissue structure [ 202 ]. Although bioprinting techniques have the same principles of the methods explained in previous “ 3D printing technologies based on stimulation used ” section, they may have some differences due to the need for adaptation not to adversely influence the living cells.…”
Section: D Printing Of Bone Scaffold Based On Cad Modelmentioning
confidence: 99%
“…Note that the porous structure of the matrixes led to the migration of osteoblasts inside the scaffold and differentiate into the bone that terminated to better and accelerated healing process. 40 Encapsulation of the cells in printable bio-inks enables homogeneous and uniform cell seeding and survive the attachment-dependent cells by mimicking the native ECM. 25 Additionally, it can provide a highly hydrated tissue-like environment for cells and improve new bone formation.…”
Section: Bone Defects Bone Formation and Bone Metabolicmentioning
confidence: 99%
“…3D printing is an additive manufacturing technique to obtain solid object via layer‐by‐layer deposition of ink. This approach is useful for generating tissue engineered grafts or in vitro models for bioengineering (Ashammakhi et al, 2019; Chimene et al, 2020; Deo, Singh, Peak, Alge, & Gaharwar, 2020; Peak, Singh, Ma, Chen, & Gaharwar, 2019). For example, Evans and co‐workers formed MOF‐thermoplastic polymer composites using ZIF‐8 and PLA via extrusion‐based additive manufacturing technique.…”
Section: Biomedical Applications Of 2d Mofsmentioning
confidence: 99%