2020
SUN-333 Burosumab Improves Bone Density in Patients with X-Linked Hypophosphatemia
Murari K, Insogna K. SUN-333 Burosumab Improves Bone Density in Patients with X-Linked Hypophosphatemia. Journal Of The Endocrine Society 2020, 4: sun-333. PMCID: PMC7207437, DOI: 10.1210/jendso/bvaa046.1470.Peer-Reviewed Original ResearchTrabecular bone scoreBone mineral densityL-spine bone mineral densityTotal hip bone mineral densityHip bone mineral densityBone scorePhase III clinical trialsRegional bone mineral densityRenal phosphate leakCourse of treatmentHuman monoclonal antibodyConsiderable clinical relevanceSignificant increaseFGF-23Frequent siteClinical trialsMineral densityMineral metabolismBone densityDrug treatmentPhosphate leakBurosumabBMD measurementsClinical relevanceStudy subjects
2015
The effects of dietary protein and amino acids on skeletal metabolism
Bihuniak JD, Insogna KL. The effects of dietary protein and amino acids on skeletal metabolism. Molecular And Cellular Endocrinology 2015, 410: 78-86. PMID: 25843057, PMCID: PMC5852680, DOI: 10.1016/j.mce.2015.03.024.BooksConceptsDietary proteinDietary protein intakeOptimal skeletal growthRecent data bearingSkeletal healthCalcium economyMineral metabolismSkeletal metabolismProtein intakeDietary allowanceSkeletal homeostasisNutrient intakeSkeletal massIntakeSkeletal growthSite-specific effectsMolecular mechanismsMetabolismVariable levelsLife continuumProtein
2009
The Effect of Proton Pump-Inhibiting Drugs on Mineral Metabolism
Insogna KL. The Effect of Proton Pump-Inhibiting Drugs on Mineral Metabolism. The American Journal Of Gastroenterology 2009, 104: ajg200944. PMID: 19262542, DOI: 10.1038/ajg.2009.44.BooksConceptsProton pump inhibitorsMineral metabolismLong-term proton pump inhibitorsIntestinal calcium absorptionHip fracture ratesClass of drugsFragility fracturesBone lossCalcium economyPump inhibitorsCalcium absorptionFracture ratesCalcium balanceSkeletal homeostasisGreater riskAdverse effectsHigh rateDrugsRecent studiesMetabolismLong term
2003
Dietary protein, calcium metabolism, and skeletal homeostasis revisited
Kerstetter JE, O'Brien KO, Insogna KL. Dietary protein, calcium metabolism, and skeletal homeostasis revisited. American Journal Of Clinical Nutrition 2003, 78: s584-s592. PMID: 12936953, DOI: 10.1093/ajcn/78.3.584s.BooksConceptsIntestinal calcium absorptionDietary protein intakeCalcium absorptionProtein intakeDietary proteinBone resorptionHigher dietary protein intakeSerum parathyroid hormoneUrinary calcium excretionCalcium balance studiesReduced bone densityRecent epidemiologic studiesLow protein intakeDiet-induced changesLow-protein dietCalcium excretionSecondary hyperparathyroidismCalcium intakeUrinary calciumParathyroid hormoneBone lossSkeletal healthCalcium metabolismDietary trialMineral metabolism
1997
Increased circulating concentrations of parathyroid hormone in healthy, young women consuming a protein-restricted diet
Kerstetter J, Caseria D, Mitnick M, Ellison A, Gay L, Liskov T, Carpenter T, Insogna K. Increased circulating concentrations of parathyroid hormone in healthy, young women consuming a protein-restricted diet. American Journal Of Clinical Nutrition 1997, 66: 1188-1196. PMID: 9356538, DOI: 10.1093/ajcn/66.5.1188.Peer-Reviewed Original ResearchConceptsLow-protein dietHigh-protein dietSerum PTHDietary proteinMedium protein dietCyclic adenosine monophosphateDay 4Nephrogenous cyclic adenosine monophosphateYoung womenIntestinal calcium absorptionNegative calcium balanceProtein-restricted dietSerum calcitriolUrinary calciumCalcitropic hormonesHealthy womenParathyroid hormoneBone turnSkeletal healthPTH bioactivityCalcium absorptionCalcium metabolismProtein restrictionRenal mechanismsMineral metabolism