Leitão, M.; Mavropoulos, E.; Sader, M.S.; Costa, A.; Lopez, E.; Fontes, G.N.; Granjeiro, J.M.; Romasco, T.; Di Pietro, N.; Piattelli, A.;
et al. Effects of Physically Adsorbed and Chemically Immobilized RGD on Cell Adhesion to a Hydroxyapatite Surface. Appl. Sci. 2024, 14, 7479.
https://doi.org/10.3390/app14177479
AMA Style
Leitão M, Mavropoulos E, Sader MS, Costa A, Lopez E, Fontes GN, Granjeiro JM, Romasco T, Di Pietro N, Piattelli A,
et al. Effects of Physically Adsorbed and Chemically Immobilized RGD on Cell Adhesion to a Hydroxyapatite Surface. Applied Sciences. 2024; 14(17):7479.
https://doi.org/10.3390/app14177479
Chicago/Turabian Style
Leitão, Melissa, Elena Mavropoulos, Marcia Soares Sader, Andrea Costa, Elvis Lopez, Giselle Nogueira Fontes, José Mauro Granjeiro, Tea Romasco, Natalia Di Pietro, Adriano Piattelli,
and et al. 2024. "Effects of Physically Adsorbed and Chemically Immobilized RGD on Cell Adhesion to a Hydroxyapatite Surface" Applied Sciences 14, no. 17: 7479.
https://doi.org/10.3390/app14177479
APA Style
Leitão, M., Mavropoulos, E., Sader, M. S., Costa, A., Lopez, E., Fontes, G. N., Granjeiro, J. M., Romasco, T., Di Pietro, N., Piattelli, A., Mourão, C. F., Gomes Alves, G., & Malta Rossi, A.
(2024). Effects of Physically Adsorbed and Chemically Immobilized RGD on Cell Adhesion to a Hydroxyapatite Surface. Applied Sciences, 14(17), 7479.
https://doi.org/10.3390/app14177479