Caselli, L.; De Pasquale, L.; Palumbo, R.; Ricchiuto, S.; Montanari, M.; Rontauroli, S.; Ottani, A.; Norfo, R.; Zanocco-Marani, T.; Grande, A.
Supra-Physiological Levels of Magnesium Counteract the Inhibitory Effect of Zoledronate on RANKL-Dependent Osteoclastogenesis. Biology 2025, 14, 533.
https://doi.org/10.3390/biology14050533
AMA Style
Caselli L, De Pasquale L, Palumbo R, Ricchiuto S, Montanari M, Rontauroli S, Ottani A, Norfo R, Zanocco-Marani T, Grande A.
Supra-Physiological Levels of Magnesium Counteract the Inhibitory Effect of Zoledronate on RANKL-Dependent Osteoclastogenesis. Biology. 2025; 14(5):533.
https://doi.org/10.3390/biology14050533
Chicago/Turabian Style
Caselli, Lorenzo, Lisa De Pasquale, Rossella Palumbo, Silvia Ricchiuto, Monica Montanari, Sebastiano Rontauroli, Alessandra Ottani, Ruggiero Norfo, Tommaso Zanocco-Marani, and Alexis Grande.
2025. "Supra-Physiological Levels of Magnesium Counteract the Inhibitory Effect of Zoledronate on RANKL-Dependent Osteoclastogenesis" Biology 14, no. 5: 533.
https://doi.org/10.3390/biology14050533
APA Style
Caselli, L., De Pasquale, L., Palumbo, R., Ricchiuto, S., Montanari, M., Rontauroli, S., Ottani, A., Norfo, R., Zanocco-Marani, T., & Grande, A.
(2025). Supra-Physiological Levels of Magnesium Counteract the Inhibitory Effect of Zoledronate on RANKL-Dependent Osteoclastogenesis. Biology, 14(5), 533.
https://doi.org/10.3390/biology14050533
