Proceedings of the International Conference on Digital Manufacturing –
                                         Volume 1

               Elsawy, M. A.,  Kim, K.  H., Park,  J. W., & Deep,  A. (2017).
                    Hydrolytic  degradation  of  polylactic  acid  (PLA)  and  its
                    composites. Renewable  and  Sustainable  Energy  Reviews,
                    79, 1346–1352.
               Gangolphe, L., Leon-Valdivieso, C. Y., Nottelet, B., Déjean, S.,
                    Bethry, A., Pinese, C., Bossard, F., & Garric, X. (2021).
                    Electrospun microstructured PLA-based scaffolds featuring
                    relevant  anisotropic,  mechanical  and    degradation
                    characteristics for soft tissue engineering. Materials Science
                    and Engineering: C, 129, 112339.
               Hussain, M., Khan, S. M., Shafiq, M., Abbas, N., Sajjad, U., &
                    Hamid, K. (2024). Advances  in biodegradable materials:
                    Degradation mechanisms, mechanical  properties, and
                    biocompatibility for orthopedic applications. Heliyon, 10(6),
                    e32713.
               Khaki, N., Sharifi, E., Solati-Hashjin, M., & Abolfathi, N. (2025).
                    Influence of scaffold geometry on the degradation rate of 3D
                    printed polylactic acid bone scaffold. Journal of Biomaterials
                    Applications, 39(5), 734–747.
               Khouri, N. G., Bahú,  J. O., Blanco-Llamero, C., Severino, P.,
                    Concha, V. O., & Souto, E. B. (2024). Polylactic acid (PLA):
                    Properties, synthesis, and biomedical applications – A review
                    of the literature. Journal of Molecular  Structure, 1309,
                    138243.
               Kokubo, T.,  & Takadama, H. (2006). How useful  is SBF in
                    predicting in vivo bone bioactivity? Biomaterials, 27(15),
                    2907–2915.
               Linde, E., Giron, N. H., & Celina, M. C. (2022). Diffusion-limited
                    hydrolysis in polymeric materials. Polymer Degradation and
                    Stability, 204, 110095.
               Liu, W., Dan, X., Lu, W. W., & Pan, H. (2018). Importance of
                    biomaterials  in  vivo  microenvironment  pH  (μe-pH) in the
                    regeneration process of osteoporotic bone defects.
                    In Developments and applications of calcium phosphate
                    bone cements (pp. 177–201). Springer.
               Mirkhalaf, M., Men, Y., Wang, R., No, Y., & Zreiqat, H. (2023).
                    Personalized 3D printed  bone scaffolds: A review. Acta
                    Biomaterialia, 156, 110–124.






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