2019
OR13-3 Effects of Iron Isomaltoside versus Ferric Carboxymaltose on Hormonal Control of Phosphate Homeostasis: The PHOSPHARE-IDA04/05 Randomized Controlled Trials
Wolf M, Rubin J, Achebe M, Econs M, Peacock M, Imel E, Thomsen L, Carpenter T, Weber T, Zoller H. OR13-3 Effects of Iron Isomaltoside versus Ferric Carboxymaltose on Hormonal Control of Phosphate Homeostasis: The PHOSPHARE-IDA04/05 Randomized Controlled Trials. Journal Of The Endocrine Society 2019, 3: or13-3. PMCID: PMC6554827, DOI: 10.1210/js.2019-or13-3.Peer-Reviewed Original ResearchIron deficiency anemiaPg/mLFerric carboxymaltoseIron isomaltosideVitamin DIntact FGF23Day 1Day 35Bone turnoverPhosphate excretionIIM groupCorrection of IDADay 8Urinary fractional phosphate excretionBone-specific alkaline phosphataseFractional phosphate excretionNew intravenous iron preparationsIncidence of hypophosphatemiaSevere hypersensitivity reactionsGrowth factor 23Intravenous iron preparationsRenal phosphate excretionRandomized Controlled TrialsRenal phosphate wastingSpecific alkaline phosphatase
1999
Changes in Bone Turnover in Young Women Consuming Different Levels of Dietary Protein1
Kerstetter J, Mitnick M, Gundberg C, Caseria D, Ellison A, Carpenter T, Insogna K. Changes in Bone Turnover in Young Women Consuming Different Levels of Dietary Protein1. The Journal Of Clinical Endocrinology & Metabolism 1999, 84: 1052-1055. PMID: 10084594, DOI: 10.1210/jcem.84.3.5552.Peer-Reviewed Original ResearchUrinary N-telopeptide excretionBone-specific alkaline phosphataseN-telopeptide excretionUrinary calcium excretionBone turnoverLow-protein dietCalcium excretionUrinary calciumProtein dietBone resorptionDietary proteinYoung womenHealthy young womenNegative calcium balanceLow protein intakeHigh-protein dietAlkaline phosphataseSecondary hyperparathyroidismSerum PTHSerum osteocalcinDihydroxyvitamin DCalcium balanceProtein intakeCompensatory increaseDay 4