2024
Item Response Theory Quantifies the Relationship Between Improvements in Serum Phosphate and Patient‐Reported Outcomes in Adults With X‐Linked Hypophosphatemia
Mehta K, Gosselin N, Insogna K, Barriere O, Quattrocchi E, Hruska M, Marsteller D. Item Response Theory Quantifies the Relationship Between Improvements in Serum Phosphate and Patient‐Reported Outcomes in Adults With X‐Linked Hypophosphatemia. Clinical Pharmacology & Therapeutics 2024, 116: 1343-1351. PMID: 39129452, DOI: 10.1002/cpt.3406.Peer-Reviewed Original ResearchPatient-reported outcomesPatient-reported outcome dataX-linked hypophosphatemiaItem response theory parametersBrief Fatigue Inventory scoreSerum phosphateWestern Ontario and McMaster Universities Osteoarthritis IndexTreatment-induced improvementMcMaster Universities Osteoarthritis IndexTreatment response biomarkersBrief Pain InventoryInventory scoresAssociated with improvementsPain InventoryOsteoarthritis IndexTreatment optimization strategiesDisability scoresPopulation pharmacokinetic-pharmacodynamic modelPhase III studySerum phosphate levelsRare bone diseasesExposure metricsPharmacokinetic-pharmacodynamic modelLongitudinal dataIII studies
2009
LDL-Receptor Related Protein Five Controls Bone Formation by Inhibiting Serotonin Synthesis in the Duodenum
Yadav V, Ryu J, Suda N, Tanaka K, Gingrich J, Schütz G, Glorieux F, Chiang C, Zajac J, Insogna K, Mann J, Hen R, Ducy P, Karsenty G. LDL-Receptor Related Protein Five Controls Bone Formation by Inhibiting Serotonin Synthesis in the Duodenum. Obstetrical & Gynecological Survey 2009, 64: 240-242. DOI: 10.1097/01.ogx.0000345723.85624.24.Peer-Reviewed Original ResearchLDL receptor-related protein 5Function mutationsHigh bone mass syndromeTryptophan hydroxylase 1Bone massSerotonin synthesisGene deletion experimentsBone formationLrp5 lossEnterochromaffin cellsMajor regulatory roleMass syndromeBone diseaseVertebrate homologsOsteoporosis pseudogliomaTranscriptional effectorsWnt proteinsBiosynthetic enzymesDeletion experimentsRegulatory roleRare bone diseasesProtein 5Rate-limiting biosynthetic enzymeMutationsLRP5 gain