Browsing by Author McDonald, Michelle

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Showing results 1 to 17 of 17
Issue DateTitleAuthor(s)Citation
2013Augmentation of autologous bone graft by a combination of bone morphogenic protein and bisphosphonate increased both callus volume and strengthLittle, David; McDonald, Michelle; Bosemark, Per; Isaksson, Hanna; Tägil, Magnus; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Childrens Medical Research InsAugmentation of autologous bone graft by a combination of bone morphogenic protein and bisphosphonate increased both callus volume and strength, Acta Orthopaedica, vol.84, 1, 2013,pp 106-111
2008Bolus or weekly zoledronic acid administration does not delay endochondral fracture repair but weekly dosing enhances delays in hard callus remodelingLittle, David; Maddock (nee Amanat), Negin; Dulai, Sukhdeep; Godfrey, Craig B.; McDonald, Michelle; Sztynda, Tamara; Children's Hospital Westmead: Paediatrics & Child Health; PhysicsBolus or weekly zoledronic acid administration does not delay endochondral fracture repair but weekly dosing enhances delays in hard callus remodeling, Bone, vol.43, 4, 2008,pp 653-662
2008Bone remodeling during fracture repair: The cellular pictureLittle, David; Schindeler, Aaron; Bokka, Paul; McDonald, Michelle; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child HealthBone remodeling during fracture repair: The cellular picture, Seminars in Cell and Developmental Biology, vol.19, 5, 2008,pp 459-466
2006Hypothalamic regulation of cortical bone mass: opposing activity of Y2 receptor and leptin pathways.Little, David; Allison, Susan J; Baldock, Paul A.; Eisman, John A.; Enriquez, Ronaldo F; Gardiner, Edith M.; Herzog, Herbert; McDonald, Michelle; Sainsbury, Amanda; Children's Hospital Westmead: Paediatrics & Child HealthHypothalamic regulation of cortical bone mass: opposing activity of Y2 receptor and leptin pathways., JOURNAL OF BONE AND MINERAL RESEARCH 2005, vol.21,(10),2006,pp 1600-1607
2010The incorporation of strontium and zinc into a calcium-silicon ceramic for bone tissue engineeringBirke, Oliver; Dunstan, Colin; James, Barbara; Little, David; Lu, Zufu; McDonald, Michelle; Paschalidis, Angelo; Ramaswamy, Yogambha; Wu, Chengtie (Robert); Zreiqat, Hala; Children's Hospital Westmead: Medicine; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Children's Hospital Westmead: Paediatrics & Child Health; Aerospace Mech & M'tronic Eng; Children's Hospital Westmead: Childrens Medical Research Ins; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic EngThe incorporation of strontium and zinc into a calcium-silicon ceramic for bone tissue engineering, Biomaterials, vol.31, 12, 2010,pp 3175-3184
2017Inhibiting the osteocyte-specific protein sclerostin increases bone mass and fracture resistance in multiple myelomaCheng, Tegan Laura; Little, David; et al, Various; McDonald, Michelle; Mohanty, Sindhu T.; Morse, Alyson; Pettitt, Jessica A.; Reagan, Michaela R.; Seckinger, Anja; Simic, Marija K.; Terry, Rachael L.; Youlten, Scott E.; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child HealthInhibiting the osteocyte-specific protein sclerostin increases bone mass and fracture resistance in multiple myeloma, Blood, vol.129, 26, 2017,pp 3452-3464
2005Manipulation of the anabolic and catabolic responses with OP-1 and zoledronic acid in a rat critical defect model.Amanat, Negin; Godfrey, Craig; Little, David; McDonald, Michelle; Bransford, Rick; Electrical Engineering; Children's Hospital Westmead: Childrens Medical Research Ins; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Childrens Medical Research InsManipulation of the anabolic and catabolic responses with OP-1 and zoledronic acid in a rat critical defect model., Journal of Bone and Mineral Research, vol.20,(11),2005,pp 2044-52
2014Mechanical Load Increases in Bone Formation Via a Sclerostin-Independent PathwayLittle, David; Morse, Alyson; Schindeler, Aaron; Kelly, N H; Kneissel, M; Kramer, I; McDonald, Michelle; Melville, K M; Van Der Meulen, Marjolein; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child HealthMechanical Load Increases in Bone Formation Via a Sclerostin-Independent Pathway, Journal of Bone and Mineral Research, vol.29, 11, 2014,pp 2456-2467
2008Models of Tibial Fracture Healing in Normal and Nf1-Deficient MiceLittle, David; Schindeler, Aaron; Gasser, Jurg A.; Godfrey, Craig; Harry, Lorraine; McDonald, Michelle; Mikulec, Kathy; Morse, Alyson; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child HealthModels of Tibial Fracture Healing in Normal and Nf1-Deficient Mice, Journal of Orthopaedic Research, vol.26,(8),2008,pp 1053-1060
2014Modulation of endochondral ossification by MEK inhibitors PD0325901 and AZD6244 (Selumetinib)Deo, Nikita; El-Hoss, Jad; Jackson, Miriam; Little, Christopher; Little, David; Schindeler, Aaron; Kolind, Mille; McDonald, Michelle; Mikulec, Kathy; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child Health; Northern Clinical School: Kolling Institute; Northern Clinical School: Kolling Institute; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child HealthModulation of endochondral ossification by MEK inhibitors PD0325901 and AZD6244 (Selumetinib), Bone, vol.59, N/A, 2014,pp 151-161
2008The murine stanniocalcin 2 gene is a negative regulator of postnatal growthChang, Andy; Gunning, Peter; Hardeman, Edna; Little, David; Reddel, Roger R; Hook, Jeff; Lemckert, Frances; McDonald, Michelle; Nguyen, Mai-Anh; Children's Hospital Westmead: Childrens Medical Research Ins; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Childrens Medical Research Ins; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Childrens Medical Research InsThe murine stanniocalcin 2 gene is a negative regulator of postnatal growth, Endocrinology, vol.149,(5),2008,pp 2403-2410
2007Novel role of y1 receptors in the coordinated regulation of bone and energy homeostasisLittle, David; McDonald, Michelle; Allison, Susan J; Baldock, Paul A.; During, Matthew J; Eisman, John A.; Enriquez, Ronaldo F; Gardiner, Edith M.; Herzog, Herbert; Lee, Nicola J; Lin, En-Ju D.; Lin, Shu; Lundberg, Pernilla; Sainsbury, Amanda; Slack, Katy; Yulyaningsih, Ernie; Zhang, Lei; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Childrens Medical Research InsNovel role of y1 receptors in the coordinated regulation of bone and energy homeostasis, Journal of Biological Chemistry, vol.282,(26),2007,pp 19092-19102
2018Sclerostin antibody augments the anabolic bone formation response in a mouse model of mechanical tibial loadingLittle, David; Morse, Alyson; Schindeler, Aaron; Kneissel, Michaela; Kramer, Ina; McDonald, Michelle; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child HealthSclerostin antibody augments the anabolic bone formation response in a mouse model of mechanical tibial loading, Journal of Bone and Mineral Research, vol.33, 3, 2018,pp 486-498
2017Sclerostin Antibody Increases Callus Size and Strength but does not Improve Fracture Union in a Challenged Open Rat Fracture ModelCheng, Tegan Laura; Little, David; Morse, Alyson; Schindeler, Aaron; Ke, H; Liu, Min; McDonald, Michelle; Mikulec, Kathy; Peacock, Lauren; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child Health; Childrens Hospital Westmead: Paediatrics & Child HealthSclerostin Antibody Increases Callus Size and Strength but does not Improve Fracture Union in a Challenged Open Rat Fracture Model, Calcified Tissue International, vol.101, 2, 2017,pp 217-228
2005Zoledronic acid improves femoral head sphericity in a rat model of perthes disease.Little, David; Peat, Rachel; McDonald, Michelle; McEvoy, Anthony; Sharpe, Ian T; Williams, Paul R; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: MedicineZoledronic acid improves femoral head sphericity in a rat model of perthes disease., Journal of Orthopaedic Research, vol.23,(4),2005,pp 862-868
2005Zoledronic acid treatment enhances hard callus formation without delaying endochondral repair in a rat fracture modelGodfrey, Craig; Little, David; McDonald, Michelle; Dulai, S.; Hamilton, B.; Children's Hospital Westmead: Childrens Medical Research Ins; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Childrens Medical Research InsZoledronic acid treatment enhances hard callus formation without delaying endochondral repair in a rat fracture model, Bone, vol.36,(point P377-Mo),2005,pp S305-S305
2011α-Actinin-3 deficiency is associated with reduced bone mass in human and mouseBerman, Yemima; Hogart, Marshall; Houweling, Peter; Lek, Monkol; Little, David; North, Kathryn; Quinlan (nee Edwards), Kate; Schindeler, Aaron; Seto, Jane; Yang, Nan; Balasuriya, Dominic; Center, Jacqueline R.; Eisman, John A.; MacArthur, Daniel G.; McDonald, Michelle; Morse, Alyson; Nguyen, Tuan V.; Prince, Richard L.; Raftery, Joanna M; Wilson, Scott G; Zhu, Kathy; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Medicine; REPROGEN; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child Health; Children's Hospital Westmead: Paediatrics & Child Healthα-Actinin-3 deficiency is associated with reduced bone mass in human and mouse, Bone, vol.49, 4, 2011,pp 790-798