Effects of Myo-inositol Hexaphosphate (SNF472) on Bone Mineral Density in Patients Receiving Hemodialysis: An Analysis of the Randomized, Placebo-Controlled CaLIPSO Study
David A Bushinsky, Paolo Raggi, Jordi Bover, Markus Ketteler, Antonio Bellasi, Mariano Rodriguez, Smeeta Sinha, Rekha Garg, Joan Perelló, Alex Gold, Glenn M Chertow, CaLIPSO Investigators*, CaLIPSO Study Group and Clinipace GmbH, Intrinsic Imaging, LLC, Kevin W Nash, Marwan O Kaskas, Edouard Rene Martin, Marializa Victorino Bernardo, Bhasker Mehta, George Hon, Jill Marie Meyer, Dylan Lior Steer, Premila Bhat, Toros Kapoian, James Sullivan 3rd, Nelson P Kopyt, Steven Zeig, Juan Mauricio Cuellar, Robert Isaac Lynn, David A Roer, Nirav Dinesh Gandhi, Kenneth Scott Kleinman, Ramon Narciso Arenas Guadiz, Jieshi Yan, Melvin M Seek, William Tracy Durham, Daniel A Rakowski, Joel Michels Topf, Lawrence Marshall Lehrner, Stephen Lawrence Graham, Aamir Z Jamal, Osman Saleem Khawar, Sohan Dua, Ramachandra V Patak, Jesus Ovidio Navarro, Braxter Pleasant Irby Jr, Sudhir Shyam Joshi, Riad Y Darwish, Michael S Anger, Kamal V Gandhi, Fahd Al-Saghir, Bun Jim, Harmeet Singh, María Montserrat Belart Rodríguez, Emilio González Parra, Antonio Francisco Planas Pons, Silvia Collado Nieto, José Antonio Ibeas López, Joaquín Manrique Escola, Gonzalo Gómez Marques, Joan Manuel Díaz Gómez, Mariano Rodríguez Portillo, Juan Manuel Buades Fuster, Natalia Ramos Terrades, Isabel Martínez Fernández, María Jesús Puchades Montesa, Pablo Molina Vila, Meritxell Ibernón Vilaro, Mercedes Salgueira Lazo, Luis Miguel Lou Arnal, Jesús Calviño Varela, José Felipe Sarró Sobrín, Francisco Maduell Canals, Smeeta Sinha, Sandip Mitra, Alastair Hutchinson, Kevin S Eardley, Gowrie Balasubramaniam, Ashraf Mikhail, Tarun Bansal, David A Bushinsky, Paolo Raggi, Jordi Bover, Markus Ketteler, Antonio Bellasi, Mariano Rodriguez, Smeeta Sinha, Rekha Garg, Joan Perelló, Alex Gold, Glenn M Chertow, CaLIPSO Investigators*, CaLIPSO Study Group and Clinipace GmbH, Intrinsic Imaging, LLC, Kevin W Nash, Marwan O Kaskas, Edouard Rene Martin, Marializa Victorino Bernardo, Bhasker Mehta, George Hon, Jill Marie Meyer, Dylan Lior Steer, Premila Bhat, Toros Kapoian, James Sullivan 3rd, Nelson P Kopyt, Steven Zeig, Juan Mauricio Cuellar, Robert Isaac Lynn, David A Roer, Nirav Dinesh Gandhi, Kenneth Scott Kleinman, Ramon Narciso Arenas Guadiz, Jieshi Yan, Melvin M Seek, William Tracy Durham, Daniel A Rakowski, Joel Michels Topf, Lawrence Marshall Lehrner, Stephen Lawrence Graham, Aamir Z Jamal, Osman Saleem Khawar, Sohan Dua, Ramachandra V Patak, Jesus Ovidio Navarro, Braxter Pleasant Irby Jr, Sudhir Shyam Joshi, Riad Y Darwish, Michael S Anger, Kamal V Gandhi, Fahd Al-Saghir, Bun Jim, Harmeet Singh, María Montserrat Belart Rodríguez, Emilio González Parra, Antonio Francisco Planas Pons, Silvia Collado Nieto, José Antonio Ibeas López, Joaquín Manrique Escola, Gonzalo Gómez Marques, Joan Manuel Díaz Gómez, Mariano Rodríguez Portillo, Juan Manuel Buades Fuster, Natalia Ramos Terrades, Isabel Martínez Fernández, María Jesús Puchades Montesa, Pablo Molina Vila, Meritxell Ibernón Vilaro, Mercedes Salgueira Lazo, Luis Miguel Lou Arnal, Jesús Calviño Varela, José Felipe Sarró Sobrín, Francisco Maduell Canals, Smeeta Sinha, Sandip Mitra, Alastair Hutchinson, Kevin S Eardley, Gowrie Balasubramaniam, Ashraf Mikhail, Tarun Bansal
Abstract
Background and objectives: In the CaLIPSO study, intravenous administration of SNF472 (300 or 600 mg) during hemodialysis significantly attenuated progression of coronary artery and aortic valve calcification. SNF472 selectively inhibits formation of hydroxyapatite, the final step in cardiovascular calcification. Because bone mineral is predominantly hydroxyapatite, we assessed changes in bone mineral density in CaLIPSO.
Design, setting, participants, & measurements: Patients with coronary artery calcification at screening (Agatston score of 100-3500 U) were randomized 1:1:1 to receive placebo, 300 mg SNF472, or 600 mg SNF472 as an intravenous infusion during hemodialysis three times weekly for 52 weeks. Dual-energy x-ray absorptiometry (DXA) scans were obtained at baseline (screening) and end of treatment, and between-group changes from baseline were compared using analysis of covariance.
Results: Among 274 randomized patients, 202 had evaluable DXA scans at baseline and postrandomization (the DXA-modified intention-to-treat population). Mean (95% confidence interval) changes in total-hip bone mineral density from baseline to week 52 were -1.5% (-2.7% to -0.3%), -1.5% (-2.7% to -0.4%), and -2.5% (-3.8% to -1.2%) in the placebo, 300 mg SNF472, and 600 mg SNF472 groups, respectively. Mean (95% confidence interval) changes in femoral-neck bone mineral density from baseline to week 52 were -0.3% (-1.6% to 1.0%), -1.0% (-2.3% to 0.2%), and -2.6% (-4.0% to -1.3%), respectively. Regression analyses showed no correlation between change in coronary artery calcium volume and change in bone mineral density at either location. Changes in serum alkaline phosphatase, calcium, magnesium, phosphate, and intact parathyroid hormone levels were similar across treatment groups. Clinical fracture events were reported for four of 90, three of 92, and six of 91 patients in the placebo, 300 mg SNF472, and 600 mg SNF472 groups, respectively.
Conclusions: Bone mineral density decreased modestly in all groups over 1 year. In the 600 mg SNF472 group, the reduction appeared more pronounced. Reported fractures were infrequent in all groups.
Clinical trial registry name and registration number: Effect of SNF472 on Progression of Cardiovascular Calcification in End-Stage-Renal-Disease (ESRD) Patients on Hemodialysis (HD), NCT02966028.
Keywords: SNF472; bone mineral density; bone modeling and remodeling; cardiovascular; matrix mineralization.
Copyright © 2021 by the American Society of Nephrology.
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Source: PubMed