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hrp0086p2-p160 | Bone & Mineral Metabolism P2 | ESPE2016

Fractures in Children with Type 1 Diabetes are Associated with Poorer Bone Mineral Status and Glycaemic Control

Chen Suet Ching , Shepherd Sheila , McMillan Martin , McNeilly Jane D , Robertson Kenneth J , Wong Sze Choong , Ahmed S Faisal

Background: Type 1 Diabetes (T1D) is associated with increased fracture risk.Aim: Understand the association between glycaemic control and bone health in children with T1D.Method: Children (n, 32) with T1D and a median (range) age of 13.7 years (10.4,16.4), were recruited to study bone mineral content (TB & LS) and body composition by DXA. All data were corrected for size. Vitamin D, Bone alkaline phosphatase (BAP) and...

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hrp0089rfc11.5 | Bone, Growth Plate & Mineral Metabolism 2 | ESPE2018

The Determinants of Skeletal Fragility in Children with Type 1 Diabetes Mellitus

Chen Suet Ching , Shepherd Sheila , McMillan Martin , McNeilly Jane , McComb Christie , Foster John , Robertson Kenneth J , Wong Sze Choong , Ahmed S Faisal

Background: The pathophysiology of the increased fracture risk in Type 1 Diabetes Mellitus (T1DM) remains unclear.Objectives: Perform multimodality assessment to determine the effects of T1DM on bone health and fractures.Methods: Thirty-two children with T1DM at a median (range) age of 13.7 years (10.4, 16.7), and median HbA1c 65mmol/mol (27,100) were recruited. Serum bone alkaline phosphatase (BAP) and c-terminal telopeptide type ...

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ESPE Abstracts

Fractures in Children with Type 1 Diabetes are Associated with Poorer Bone Mineral Status and Glycaemic Control

The Determinants of Skeletal Fragility in Children with Type 1 Diabetes Mellitus

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