HIGHLIGHTS
- who: March et al. from the Laval University, Canada have published the research work: Effectiveness of biomechanically stable pergola-like additively manufactured scaffold for extraskeletal vertical bone augmentation, in the Journal: (JOURNAL)
- how: A follow-up study evaluated the performance of a 3D-printed scaffold in a clinically relevant canine bone defect model and the results showed that the 3D-printed scaffold had excellent osteoconductivity (Carrel et_al 2016b). The following flow parameters were evaluated and are reported in Table 2 for the different scaffolds. The values of ALP activity were calculated in U/gprot. The . . .
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