2016
Novel anatomic adaptation of cortical bone to meet increased mineral demands of reproduction
Macica CM, King HE, Wang M, McEachon CL, Skinner CW, Tommasini SM. Novel anatomic adaptation of cortical bone to meet increased mineral demands of reproduction. Bone 2016, 85: 59-69. PMID: 26825813, PMCID: PMC7429445, DOI: 10.1016/j.bone.2015.12.056.Peer-Reviewed Original ResearchConceptsHyp miceMineral homeostasisElevated serum PTHMaternal bone massMineralized trabecular boneIntestinal calcium absorptionCortical boneWild-type miceSerum PTHCalcitriol productionFemale patientsMaternal skeletonPostnatal nutritionCalcium absorptionBone resorptionFracture riskMaternal adaptationBone massBone fragilityMurine modelIntracortical porosityUnaffected miceMouse modelMMP-13Fetal development
2015
Periosteal PTHrP Regulates Cortical Bone Remodeling During Fracture Healing
Wang M, Nasiri AR, Broadus AE, Tommasini SM. Periosteal PTHrP Regulates Cortical Bone Remodeling During Fracture Healing. Bone 2015, 81: 104-111. PMID: 26164475, PMCID: PMC4641003, DOI: 10.1016/j.bone.2015.07.008.Peer-Reviewed Original ResearchConceptsFracture healingPTHrP expressionCKO miceCortical bone surfaceFracture repairTibial fracture surgeryRole of PTHrPHormone-related proteinTibial fracture modelCartilaginous callus formationConditional knockout miceBone surfaceCortical bone remodelingType I receptorCD1 controlsFracture surgeryCD1 miceKnockout miceInitial genetic evidencePTHrPOsteoblastic activityBone remodelingMiceBone mineralizationI receptor
2013
The remarkable migration of the medial collateral ligament
Wang M, Nasiri A, VanHouten JN, Tommasini SM, Broadus AE. The remarkable migration of the medial collateral ligament. Journal Of Anatomy 2013, 224: 490-498. PMID: 24266550, PMCID: PMC3954274, DOI: 10.1111/joa.12145.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsChondrocytesKnee JointMedial Collateral Ligament, KneeMiceOsteoclastsX-Ray MicrotomographyConceptsMedial collateral ligamentMigratory tractsCollateral ligamentParathyroid hormone-related proteinOsteoclastic bone resorptionHormone-related proteinCortical surfaceInsertions of tendonsInsertion siteBone resorptionLong bone growthPTHrP functionsOsteoclastic activityPeriosteal osteoclastsRegulatory moleculesOsteoblast activityGrowth spurtLong bonesOsteoclastsCortical boneLigamentRecent evidenceHistological techniquesBone surfaceTract
2011
Smad1 plays an essential role in bone development and postnatal bone formation
Wang M, Jin H, Tang D, Huang S, Zuscik MJ, Chen D. Smad1 plays an essential role in bone development and postnatal bone formation. Osteoarthritis And Cartilage 2011, 19: 751-762. PMID: 21420501, PMCID: PMC3113680, DOI: 10.1016/j.joca.2011.03.004.Peer-Reviewed Original ResearchConceptsPostnatal bone formationBone developmentCKO miceAlkaline phosphatase activityCalvarial bone developmentRole of Smad1Essential roleGene expression analysisBone formationOsteoblast-specific deletionCol2a1-Cre transgenic miceTransgenic miceBMP signalingSmad1 geneRelative gene expressionExpression analysisGene expressionConditional knockout miceOsteopenic phenotypeSmad1Formation assaysPhosphatase activityPrimary cellsOsteoblast proliferationKnockout mice