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B
de Oliveira, I. R., I. dos Santos Gonçalves, K. Wallace dos Santos, M. C. Lança, T. Vieira, J. C. Silva, I. F. Cengiz, R. L. Reis, J. M. Oliveira, and J. P. Miranda Ribeiro Borges, "Biocomposite Macrospheres Based on Strontium-Bioactive Glass for Application as Bone Fillers", ACS Materials Au, vol. 3, no. 6: American Chemical Society, pp. 646–658, 2023. AbstractWebsite

Traditional bioactive glass powders are typically composed of irregular particles that can be packed into dense configurations presenting low interconnectivity, which can limit bone ingrowth. The use of novel biocomposite sphere formulations comprising bioactive factors as bone fillers are most advantageous, as it simultaneously allows for packing the particles in a 3-dimensional manner to achieve an adequate interconnected porosity, enhanced biological performance, and ultimately a superior new bone formation. In this work, we develop and characterize novel biocomposite macrospheres of Sr-bioactive glass using sodium alginate, polylactic acid (PLA), and chitosan (CH) as encapsulating materials for finding applications as bone fillers. The biocomposite macrospheres that were obtained using PLA have a larger size distribution and higher porosity and an interconnectivity of 99.7%. Loose apatite particles were observed on the surface of macrospheres prepared with alginate and CH by means of soaking into a simulated body fluid (SBF) for 7 days. A dense apatite layer was formed on the biocomposite macrospheres' surface produced with PLA, which served to protect PLA from degradation. In vitro investigations demonstrated that biocomposite macrospheres had minimal cytotoxic effects on a human osteosarcoma cell line (SaOS-2 cells). However, the accelerated degradation of PLA due to the degradation of bioactive glass may account for the observed decrease in SaOS-2 cells viability. Among the biocomposite macrospheres, those composed of PLA exhibited the most promising characteristics for their potential use as fillers in bone tissue repair applications.

P
Madeira, R. M. D., T. Vieira, J. C. Silva, I. R. Oliveira, J. P. Borges, M. M. R. A. Lima, and C. M. Lança, "Piezoelectric Calcium Modified Barium Titanate for Bone Regeneration", Materials Proceedings 2022, Vol. 8, Page 121, vol. 8, no. 1, Basel Switzerland, Multidisciplinary Digital Publishing Institute, pp. 121, jul, 2022. Abstract

Solid state reaction was used to produced barium titanate modified with calcium (BCT) showing the presence of the piezoelectric tetragonal phase after sintering at 1350 °C. Bioglass 45S5 (BG) was synthetized by sol-gel route. From these two materials and commercial hydroxyapatite (HAp) were obtained composites. The BG produced showed some cytotoxic character that was weakened by passivation. All other materials were non-cytotoxic. Contact polarization at constant temperature was chosen composites polarization. Electric/dielectric properties were evaluated by thermally stimulated depolarization currents (TSDC). The material showed bioactivity with the composite with BCT/BG/HAp 90/5/5 (wt%) showing increased bioactivity. In vitro test showed high proliferation rates for the composites.

Oliveira, I. R., A. M. Barbosa, K. W. Santos, M. C. Lança, M. M. R. A. Lima, T. Vieira, J. C. Silva, and J. P. Borges, "Properties of strontium-containing BG 58S produced by alkali-mediated sol-gel process", Ceramics International: Elsevier, jan, 2022. AbstractWebsite

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