| dc.description.abstract | The basis of bone strength is created during early development and growth, before the achievement and consolidation of a peak bone mass (PBM) in the second or early third decade of life. In order to optimize PBM, we need to identify modifiable predictors that influence bone mass accrual during growth and the vulnerable period of adolescence.
The main aim of this thesis was to investigate the influence of birth parameters, childhood fractures and lifestyle factors on the accrual of bone mass levels among Norwegian adolescents.
The Tromsø Study, Fit Futures is an expansion of the population-based Tromsø Study. In 2010/2011 we invited all first-year upper-secondary school students in Tromsø and surrounding municipalities to a health survey. In total 1038 adolescents attended, 508 girls and 530 boys, providing an attendance rate of 93%. We measured hip and total body bone mineral content (BMC) (g), bone mineral density (BMD) (g/cm²) by Dual-energy X-ray absorptiometry (DXA). Weight and height were measured and information about lifestyle was collected through clinical interviews and an electronic self-reporting questionnaire. All fractures in the cohort were retrospectively recorded from the local hospital UNN HF. Information on birth parameters were collected from the Medical Birth Registry of Norway.
Results: Through childhood, fractures were registered among 35% and 31% of boys and girls, respectively, with incidence rates in correspondence with other Scandinavian countries, although with a slightly more balanced male/female ratio. Higher levels of physical activity (PA) in adolescence were associated with increased levels of BMD and BMC, suggesting that participation in PA is of major importance to PBM. Birth weight and length were positively associated with BMD-TB and BMC at all measured sites. However, these associations were attenuated when adjusting for change in size and lifestyle factors during adolescence. We could not confirm that childhood fracture is a marker of persistent skeletal vulnerability as the association between a previous fracture and bone mineral outcomes appeared inconsistently across levels of physical activity and sex. | en_US |
| dc.description.popularabstract | Osteoporotic fractures in the elderly constitute a major problem worldwide, and the highest incidences of hip fractures ever reported are from the Scandinavian countries including Norway. Fracture risk in old age is determined by bone mass accumulation during growth and subsequent bone loss through adult life. While traditional strategies have focused on the reduction of age-related bone loss and fracture rates among the elderly, attention has recently shifted to the role of peak bone mass (PBM) on bone strength. The basis of bone strength is created during early development and growth, before the achievement of a PBM in the second or early third decade of life. In order to optimize PBM, we need to identify factors that influence bone mass accrual during growth and adolescence.
The main aim of this thesis was to investigate the influence of birth weight and length, childhood fractures and lifestyle factors like physical activity on the accumulation of bone mass among Norwegian adolescents.
The Tromsø Study, Fit Futures is an expansion of the population-based Tromsø Study. In 2010/2011 we invited all first-year upper-secondary school students in Tromsø and surrounding municipalities to a health survey and 508 girls and 530 boys attended. We measured hip and total body bone mineral content (BMC), bone mineral density (BMD) by Dual-energy X-ray absorptiometry (DXA). Weight and height were measured and information about lifestyle was collected through clinical interviews and an electronic self-reporting questionnaire. All fractures in the cohort were retrospectively recorded from the local hospital UNN Tromsø. Information on birth parameters were collected from the Medical Birth Registry of Norway.
Through childhood, fractures were registered among 35% and 31% of boys and girls, respectively. Higher levels of physical activity (PA) in adolescence were associated with increased levels of BMD and BMC, suggesting that participation in PA is of major importance to PBM. Birth weight and length were positively associated with BMC at all measured sites. However, these associations were attenuated when adjusting for change in size and lifestyle factors during adolescence. We could not confirm that childhood fracture is an early marker of skeletal vulnerability as the association between a previous fracture and bone outcomes appeared inconsistently across levels of physical activity and sex. | en_US |
| dc.description | The papers 1, 3 and 4 of this thesis are not available in Munin. <br>
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Paper I: Christoffersen, T., Ahmed, L. A., Winther, A., Nilsen, O-A., Furberg, A-S., Grimnes, G., Dennison, E. M., Center, J. R., Eisman, J. A., Emaus, N.: «Fracture incidence rates in Norwegian children, The Tromsø Study, Fit Futures”. Available in <a href=http://dx.doi.org/10.1007/s11657-016-0294-z> Arch Osteoporos 2016, 11:40. </a>
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Paper III:
Christoffersen, T., Ahmed, L. A., Daltveit, A. K., Dennison, E. M., Evensen, E. K., Furberg, A. S., Gracia-Marco, L., Grimnes, G., Nilsen, O. A., Schei, B., Tell, G. S., Vlachopoulous, D., Winther, A., Emaus, N.: “The influence of birth weight and length on bone mineral density and content in adolescence: The Tromsø Study, Fit Futures”. Available in <a href=http://doi.org/10.1007/s11657-017-0348-x> Arch Osteoporos 2017, 12(1):54. </a>
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Paper IV: Christoffersen, T., Emaus, N., Dennison, E. M., Furberg, A-S., Gracia-Marco, L., Grimnes, G., Nilsen, O-A., Vlachopoulos, D., Winther, A., Ahmed, L. A.: “The association between childhood fractures and adolescence bone outcomes: a population based study, The Tromsø Study, Fit Futures”. (Manuscript). | en_US |
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