2020
New Therapies for Hypophosphatemia-Related to FGF23 Excess
Athonvarangkul D, Insogna KL. New Therapies for Hypophosphatemia-Related to FGF23 Excess. Calcified Tissue International 2020, 108: 143-157. PMID: 32504139, DOI: 10.1007/s00223-020-00705-3.BooksConceptsTumor-induced osteomalaciaCutaneous skeletal hypophosphatemia syndromeEpidermal nevus syndromeAutosomal dominant hypophosphatemic ricketsAutosomal recessive hypophosphatemic ricketsHypophosphatemic ricketsForms of FGF23Treatment of XLHActive comparator trialsMainstay of therapyMonoclonal blocking antibodyNew treatment modalitiesMcCune-Albright syndromeRenal phosphate wastingRecessive hypophosphatemic ricketsDominant hypophosphatemic ricketsFGF23 excessComparator trialsSkeletal complicationsChronic hypophosphatemiaMusculoskeletal syndromeOngoing trialsClinical presentationTreatment modalitiesClinical trials
2016
Hypophosphatemia promotes lower rates of muscle ATP synthesis
Pesta DH, Tsirigotis DN, Befroy DE, Caballero D, Jurczak MJ, Rahimi Y, Cline GW, Dufour S, Birkenfeld AL, Rothman DL, Carpenter TO, Insogna K, Petersen KF, Bergwitz C, Shulman GI. Hypophosphatemia promotes lower rates of muscle ATP synthesis. The FASEB Journal 2016, 30: 3378-3387. PMID: 27338702, PMCID: PMC5024687, DOI: 10.1096/fj.201600473r.Peer-Reviewed Original ResearchConceptsMuscle ATP synthesisATP synthesisMuscle weaknessIsolated muscle mitochondriaSolute carrier familyWild-type littermate controlsSolute carrier family 34Carrier familyLower ratesInsulin-stimulated ratesMuscle mitochondriaChronic hypophosphatemiaHeart failureHypophosphatemic groupHypophosphatemic miceHypophosphatemiaLittermate controlsKnockout miceBlood PLow ratePlasma PPatientsSimilar findingsMember 1Plasma inorganic phosphate
2014
Denosumab for Treatment of Hypercalcemia of Malignancy
Hu MI, Glezerman IG, Leboulleux S, Insogna K, Gucalp R, Misiorowski W, Yu B, Zorsky P, Tosi D, Bessudo A, Jaccard A, Tonini G, Ying W, Braun A, Jain RK. Denosumab for Treatment of Hypercalcemia of Malignancy. The Journal Of Clinical Endocrinology & Metabolism 2014, 99: 3144-3152. PMID: 24915117, PMCID: PMC4154084, DOI: 10.1210/jc.2014-1001.Peer-Reviewed Original ResearchConceptsHypercalcemia of malignancyProportion of patientsDay 10Serum calciumBone resorptionCommon serious adverse eventsMedian response durationSerious adverse eventsSerum calcium levelsTreatment of hypercalcemiaDuration of responseNew treatment optionsBisphosphonate therapyPrimary endpointSecondary endpointsAdverse eventsBisphosphonate treatmentDurable responsesComplete responseAdvanced cancerTreatment optionsHematologic malignanciesResponse durationDenosumabCalcium levels
2008
A Patient With Hypophosphatemia, a Femoral Fracture, and Recurrent Kidney Stones: Report of a Novel Mutation in SLC34A3
Page K, Bergwitz C, Jaureguiberry G, Harinarayan CV, Insogna K. A Patient With Hypophosphatemia, a Femoral Fracture, and Recurrent Kidney Stones: Report of a Novel Mutation in SLC34A3. Endocrine Practice 2008, 14: 869-874. PMID: 18996815, PMCID: PMC2773288, DOI: 10.4158/ep.14.7.869.Peer-Reviewed Original ResearchMeSH KeywordsAdultFemoral Neck FracturesHumansHypophosphatemiaKidney CalculiMaleMutationSodium-Phosphate Cotransporter Proteins, Type IIcConceptsSLC34A3 geneClinical presentationNovel mutationsHistory of flank painMissense mutationsPatient's unusual clinical presentationUnusual clinical presentationPatient's clinical courseAtypical clinical presentationHereditary hypophosphatemic ricketsTreated with calcitriolRecurrent kidney stonesDisorder associated with mutationsGenomic DNA samplesStress fracturesSLC34A3 mutationsFlank painRecurrent nephrolithiasisInsufficiency fracturesClinical courseClinical improvementNaPi-IIcHypophosphatemic ricketsCompound heterozygotesGenetic analysis