Development of tibia & fibula bone deficits in children with neurofibromatosis type I – a longitudinal case-control comparison
Development of tibia & fibula bone deficits in children with neurofibromatosis type I – a longitudinal case-control comparison
Neurofibromatosis type 1 (NF1) is associated with lower bone mass and increased risk of fracture. Children with NF1 display faltering growth from mid-childhood. However, to date tibia bone development in children with NF1 across childhood and the role of body size have not been explored.
Therefore, we recruited 24 children with NF1 (12 girls, mean age 8.2 ± 1.1y) and 104 children without NF1 (52 girls, mean age 11 ± 1.7y). Tibia and fibula bone characteristics were assessed at 4% and 38% distal-proximal tibia length in all children at baseline using peripheral quantitative computed tomography (pQCT). Longitudinal scans were obtained in 21 children with NF1 (12 girls) over 3.4 ± 0.3y and 71 children without NF1 (34 girls) over 1.1 ± 0.1y, such that at follow-up mean age of both groups (NF1 10.9 ± 1.3y, controls 11.4 ± 1.4y) were similar. Effects of group (NF1/control) on bone outcomes as well as group-by-age interactions, indicating differences in rate of change in bone outcome bone outcomes were assessed via linear mixed effects models with adjustment for sex, age, pubertal status and in additional models with adjustment for height and weight Z-scores.
Group (NF1/control)-by-age interactions indicated a slower rate of tibia and fibula bone mass accrual in children with NF1 at all measured sites. These associations were attenuated by 25–50% by adjustment for height and weight Z-scores. At the 4% site, deficits in bone mass at older ages were related to slower trabecular BMD accrual. At the 38% site, group-by-age interactions suggested that bone mass deficits resulted from poorer accrual of cortical CSA and to a lesser extent cortical BMD.
Lower limb bone mass deficits evident in children with NF1 appear to be progressive and emerge in mid-childhood. In part, they are related to development of a similar pattern of deficits in longitudinal growth and body weight in NF1. Interventions promoting muscle development or physical activity may be partially effective in attenuating bone mass accrual deficits in this population.
Growth, Loading, Muscle, pQCT
Ireland, Alex
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Riddell, Amy
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Prentice, Ann
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Eelloo, Judith
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Zulf Mughal, M.
20a55a79-dc9b-41c1-934b-355373e99365
Ward, Kate
39bd4db1-c948-4e32-930e-7bec8deb54c7
January 2022
Ireland, Alex
01924e16-2c9e-40ee-9965-4605b02090d1
Riddell, Amy
fa7fcc56-29c3-430f-b8dc-4a37c74f92e1
Prentice, Ann
675810ad-8022-453c-b3a3-8afff0e1a920
Eelloo, Judith
39dac871-50bb-4da8-a6fe-ec1295b84b3c
Zulf Mughal, M.
20a55a79-dc9b-41c1-934b-355373e99365
Ward, Kate
39bd4db1-c948-4e32-930e-7bec8deb54c7
Ireland, Alex, Riddell, Amy, Prentice, Ann, Eelloo, Judith, Zulf Mughal, M. and Ward, Kate
(2022)
Development of tibia & fibula bone deficits in children with neurofibromatosis type I – a longitudinal case-control comparison.
Bone, 154, [116183].
(doi:10.1016/j.bone.2021.116183).
Abstract
Neurofibromatosis type 1 (NF1) is associated with lower bone mass and increased risk of fracture. Children with NF1 display faltering growth from mid-childhood. However, to date tibia bone development in children with NF1 across childhood and the role of body size have not been explored.
Therefore, we recruited 24 children with NF1 (12 girls, mean age 8.2 ± 1.1y) and 104 children without NF1 (52 girls, mean age 11 ± 1.7y). Tibia and fibula bone characteristics were assessed at 4% and 38% distal-proximal tibia length in all children at baseline using peripheral quantitative computed tomography (pQCT). Longitudinal scans were obtained in 21 children with NF1 (12 girls) over 3.4 ± 0.3y and 71 children without NF1 (34 girls) over 1.1 ± 0.1y, such that at follow-up mean age of both groups (NF1 10.9 ± 1.3y, controls 11.4 ± 1.4y) were similar. Effects of group (NF1/control) on bone outcomes as well as group-by-age interactions, indicating differences in rate of change in bone outcome bone outcomes were assessed via linear mixed effects models with adjustment for sex, age, pubertal status and in additional models with adjustment for height and weight Z-scores.
Group (NF1/control)-by-age interactions indicated a slower rate of tibia and fibula bone mass accrual in children with NF1 at all measured sites. These associations were attenuated by 25–50% by adjustment for height and weight Z-scores. At the 4% site, deficits in bone mass at older ages were related to slower trabecular BMD accrual. At the 38% site, group-by-age interactions suggested that bone mass deficits resulted from poorer accrual of cortical CSA and to a lesser extent cortical BMD.
Lower limb bone mass deficits evident in children with NF1 appear to be progressive and emerge in mid-childhood. In part, they are related to development of a similar pattern of deficits in longitudinal growth and body weight in NF1. Interventions promoting muscle development or physical activity may be partially effective in attenuating bone mass accrual deficits in this population.
Text
NF1 pQCT Manuscript v2.1_ACCEPTED VERSION
- Accepted Manuscript
More information
Accepted/In Press date: 7 September 2021
Published date: January 2022
Additional Information:
Funding Information:
The Cambridge study was funded through UKRI-MRC Programme Number U105963071, and AR was funded by an MRC PhD Studentship. The Manchester study was funded through NIH grant number NS050509-01A1. AI's work on this study was supported by a Barbara Mawer Travelling Fellowship from the Bone Research Society.
Funding Information:
The Cambridge study was funded through UKRI -MRC Programme Number U105963071 , and AR was funded by an MRC PhD Studentship. The Manchester study was funded through NIH grant number NS050509-01A1 . AI's work on this study was supported by a Barbara Mawer Travelling Fellowship from the Bone Research Society.
Publisher Copyright:
© 2021 Elsevier Inc.
Keywords:
Growth, Loading, Muscle, pQCT
Identifiers
Local EPrints ID: 451917
URI: http://eprints.soton.ac.uk/id/eprint/451917
ISSN: 8756-3282
PURE UUID: 673a5821-58fa-471b-816a-3ff73d617df4
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Date deposited: 03 Nov 2021 17:33
Last modified: 17 Mar 2024 06:53
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Contributors
Author:
Alex Ireland
Author:
Amy Riddell
Author:
Ann Prentice
Author:
Judith Eelloo
Author:
M. Zulf Mughal
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