| Penulis/Author |
I Kadek Hariscandra Dinatha (1); ARIAN HERMAWAN DIPUTRA (2); Dr. Juliasih Partini, S.Si., M.Si. (3); Dr. med. vet. drh. Hevi Wihadmadyatami, M.Sc. (4); Prof. Dr. Eng. Yusril Yusuf, S.Si., M.Si., M.Eng. (5) |
| Abstrak/Abstract |
Bone is a complex mineralized tissue composed of various organic (proteins and cells) and inorganic (hy
droxyapatite; HA, Na+, Mg2+, K+, CO3
2− , F− , Cl− , P2O7
4− , H2O) minerals, which often have some issue or defect
due to various causes. Recently, artificial bone has been attempted to be developed as a safer method compared
to autograft and allograft methods, which potentially cause infectious diseases. However, the method for con
structing a 3 dimensional (3D) scaffold from pure bioceramics with a high level of precision remains challenging.
In addition, calcium phosphate bioceramics, like commercial HA (HA-C), does not have impurities of inorganic
ions that can increase its bioactivity response. We successfully developed 3D HA bioceramics material derived
from sand lobster shell (HA-SLS) waste, which contains the magnesium (Mg) natural trace element in the form of
β-tricalcium-magnesium phosphate (β-TCMP) to improve the bioactivity cell osteogenic differentiation of HA-C.
The 3D scaffold is constructed using additive manufacturing with a digital light processing (DLP) method, which
produces pore sizes precisely because the pore size affects the mechanical compressive strength. 3D HA-SLS
scaffold derived from biogenic waste has stronger sustained degradability and released ions compared to the
3D HA-C scaffold. The released Ca2+, P, and Mg2+ ions from HA-SLS can facilitate the material’s bioactivity
response when the materials are immersed in a simulated body fluid (SBF) solution, increasing the level of cell
osteogenic differentiation, which is marked with alkaline phosphate, alizarin red, and gene expression bonerelated. Additionally, the 3D HA-SLS scaffold material can support the cell adhesion and proliferation of bone
marrow mesenchymal stem cells (BMSCs), so it has the potential to promote bone growth. |
