Background: Current challenges in bone grafting revolve around the limited availability of
autografts and the complications associated with their use. Promising alternatives include
osteoinductive substances stimulating stem cells to mature into bone‑forming osteoblasts.
However, existing products lack optimal characteristics of a bone graft. The study aimed to
evaluate the impact of L‑arginine treatment on hydroxyapatite (HA) derived from ovine bone
and compare its surface and mechanical properties to that of the commercially available
xenograft‑Bio‑Oss.
Materials and Methods: The research was structured as an in vitro investigation, wherein HA
was formulated from ovine bone. The sintering process involved heating it to 360°C for 3 h and
adding the amino acid L‑arginine. Different tests were done which included scanning electron
microscopy (SEM), X‑ray diffractometry, Fourier‑transform infrared spectroscopy (FTIR), and
3‑(4,5‑dimethylthiazol‑2‑yl)‑2,5‑diphenyltetrazolium bromide assay. The goal was to compare these
results with a commercially available bone graft called BioOss, especially regarding their physical
and chemical characteristics. Data were analyzed in SPSS software using one way ANOVA test,
significant level at 0.05.
Results: A bone graft made of HA and L‑arginine displayed a complex and interconnected pore
structure, indicating that the sintering process had a significant impact. SEM confirmed this. FTIR
analysis identified peaks at 650–700 cm−1 and 1000–1100 cm−1, confirming the presence of HA and
L‑arginine. X‑ray Diffraction assessments also confirmed the existence of both substances in the
sintered specimens, supporting their suitability for various biomedical applications.
Conclusion: The study presents a novel approach, deproteinizing a bone graft followed by sintering
at 360°C with L‑arginine. Physicochemical analyses confirmed desired mechanical attributes
and surface characteristics. Further investigations are needed to evaluate cellular adherence,
immunological response, and osteogenesis in relevant animal models.
Key Words: Autograft, BioOss, hyalouronic acid, hydroxyapatite, L‑arginine, ossecondutivity,ovine bone graft

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Subhabrata Maiti: Pubmed,Google Scholar