2022
DOI: 10.3390/biomedicines10123242
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Alternative Geometries for 3D Bioprinting of Calcium Phosphate Cement as Bone Substitute

Abstract: In the literature, many studies have described the 3D printing of ceramic-based scaffolds (e.g., printing with calcium phosphate cement) in the form of linear structures with layer rotations of 90°, although no right angles can be found in the human body. Therefore, this work focuses on the adaptation of biological shapes, including a layer rotation of only 1°. Sample shapes were printed with calcium phosphate cement using a 3D Bioplotter from EnvisionTec. Both straight and wavy spokes were printed in a round … Show more

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Cited by 7 publications
(16 citation statements)
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“…Raymond et al [36] described a similar 3D plotting with 10% overlapping strands. As in Blankenburg et al [28], there were no significant differences in the surface roughness of the scaffolds regardless of whether the samples were incubated in PBS or not. There were also no significant differences in surface roughness between the two needles with a 200 and 250 µm inner diameter.…”
Section: Strand Width and Surface Roughness Sasupporting
confidence: 65%
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“…Raymond et al [36] described a similar 3D plotting with 10% overlapping strands. As in Blankenburg et al [28], there were no significant differences in the surface roughness of the scaffolds regardless of whether the samples were incubated in PBS or not. There were also no significant differences in surface roughness between the two needles with a 200 and 250 µm inner diameter.…”
Section: Strand Width and Surface Roughness Sasupporting
confidence: 65%
“…In previous works [33,34], cube-shaped geometries were printed using patterns from the Visual Machines software (EnvisionTec, Gladbeck, Germany). In one of our previous works [28], round structures with a layer rotation of 1 • showed good results regarding mechanical strength, but were limited to 12 layers. In addition, there were printing errors such as delamination of the layers.…”
Section: Printing the Round Geometries With More Than 12 Layersmentioning
confidence: 88%
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