“…Scaffolds are porous and temporary three-dimensional supports with adequate biophysical and biochemical conditions, both for cell propagation and to remain integrated to the host tissue, without risk of rejection, with synergistic action in the acceleration of angiogenesis, favoring the differentiation of mesenchymal cells. These properties have aroused the interest of several researchers (Al-Namnam et al, 2017;Heras et al, 2019;Sharipova, Gotman, Psakhie, & Gutmanas, 2019;Xu et al, 2015).Therefore, several studies have been done with scaffolds for application as biomaterial for bone repair, among these: calcium phosphate scaffolds (Batista, 2016;Lett, Sagadevan, Prabhakar, & Latha, 2019); hydroxyapatite and magnetite scaffolds (Chaves, 2015;Xu et al, 2015); bioscaffold hydroxyapatite doped with MgFe2O4 (John, Janeta, & Szafert, 2017); scaffold with strontium/hydroxyapatite and chitosan ; chitosan scaffold and hydroxyapatite (R. S. Almeida et al, 2019;Anamarua et al, 2016;Atak et al, 2017;Dantas, 2016;. These and other researches have proven the potential of scaffolds' properties in biomedical applications.…”