A. Safira Et Al. , "Hydroxyapatite-chitosan composites derived from sea cucumbers and shrimp shells ameliorate femoral bone defects in an albino rat model," VETERINARY WORLD , vol.16, no.5, pp.1084-1091, 2023
Safira, A. Et Al. 2023. Hydroxyapatite-chitosan composites derived from sea cucumbers and shrimp shells ameliorate femoral bone defects in an albino rat model. VETERINARY WORLD , vol.16, no.5 , 1084-1091.
Safira, A., Rani, C. A. M., Fikri, F., Purnomo, A., Khairani, S., Chhetri, S., ... Maslamama, S. T.(2023). Hydroxyapatite-chitosan composites derived from sea cucumbers and shrimp shells ameliorate femoral bone defects in an albino rat model. VETERINARY WORLD , vol.16, no.5, 1084-1091.
Safira, Arifia Et Al. "Hydroxyapatite-chitosan composites derived from sea cucumbers and shrimp shells ameliorate femoral bone defects in an albino rat model," VETERINARY WORLD , vol.16, no.5, 1084-1091, 2023
Safira, Arifia Et Al. "Hydroxyapatite-chitosan composites derived from sea cucumbers and shrimp shells ameliorate femoral bone defects in an albino rat model." VETERINARY WORLD , vol.16, no.5, pp.1084-1091, 2023
Safira, A. Et Al. (2023) . "Hydroxyapatite-chitosan composites derived from sea cucumbers and shrimp shells ameliorate femoral bone defects in an albino rat model." VETERINARY WORLD , vol.16, no.5, pp.1084-1091.
@article{article, author={Arifia Safira Et Al. }, title={Hydroxyapatite-chitosan composites derived from sea cucumbers and shrimp shells ameliorate femoral bone defects in an albino rat model}, journal={VETERINARY WORLD}, year=2023, pages={1084-1091} }