The development of inter-strain variation in cortical and trabecular traits during growth of the mouse lumbar vertebral body

The development of inter-strain variation in cortical and trabecular traits during growth of the mouse lumbar vertebral body

Summary How cortical and trabecular bone co-develop to establish a mechanically functional structure is not well understood. Comparing early postnatal differences in morphology of lumbar vertebral bodies for three inbred mouse strains identified coordinated changes within and between cortical and tr...

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Published in:Osteoporosis international Vol. 28; no. 3; pp. 1133 - 1143
Main Authors: Ramcharan, M. A., Faillace, M. E., Guengerich, Z., Williams, V. A., Jepsen, K. J.
Format: Journal Article
Language:English
Published: London Springer London 01-03-2017
Springer Nature B.V
Subjects:
Age
Aging - physiology
Animal behavior
Animals
Bone mass
Bone strength
Cancellous bone
Cancellous Bone - anatomy & histology
Cancellous Bone - growth & development
Compression
Cortical bone
Endocrinology
Female
Genetic diversity
Humans
Inbreeding
Lumbar Vertebrae - anatomy & histology
Lumbar Vertebrae - growth & development
Male
Medicine
Medicine & Public Health
Mice, Inbred A
Mice, Inbred C3H
Mice, Inbred C57BL
Microscopy, Fluorescence
Morphology
Original Article
Orthopedics
Osteogenesis - genetics
Osteogenesis - physiology
Quantitative Trait, Heritable
Rheumatology
Rodents
Species Specificity
Structure-function relationships
Vertebrae
Bone histomorphometry
Genetic variation
Growth
Cortical
Trabecular
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Summary:Summary How cortical and trabecular bone co-develop to establish a mechanically functional structure is not well understood. Comparing early postnatal differences in morphology of lumbar vertebral bodies for three inbred mouse strains identified coordinated changes within and between cortical and trabecular traits. These early coordinate changes defined the phenotypic differences among the inbred mouse strains. Introduction Age-related changes in cortical and trabecular traits have been well studied; however, very little is known about how these bone tissues co-develop from day 1 of postnatal growth to establish functional structures by adulthood. In this study, we aimed to establish how cortical and trabecular tissues within the lumbar vertebral body change during growth for three inbred mouse strains that express wide variation in adult bone structure and function. Methods Bone traits were quantified for lumbar vertebral bodies of female A/J, C57BL/6J (B6), and C3H/HeJ (C3H) inbred mouse strains from 1 to 105 days of age ( n  = 6–10 mice/age/strain). Results Inter-strain differences in external bone size were observed as early as 1 day of age. Reciprocal and rapid changes in the trabecular bone volume fraction and alignment in the direction of axial compression were observed by 7 days of age. Importantly, the inter-strain difference in adult trabecular bone volume fraction was established by 7 days of age. Early variation in external bone size and trabecular architecture was followed by progressive increases in cortical area between 28 and 105 days of age, with the greatest increases in cortical area seen in the mouse strain with the lowest trabecular mass. Conclusion Establishing the temporal changes in bone morphology for three inbred mouse strains revealed that genetic variation in adult trabecular traits were established early in postnatal development. Early variation in trabecular architecture preceded strain-specific increases in cortical area and changes in cortical thickness. This study established the sequence of how cortical and trabecular traits co-develop during growth, which is important for identifying critical early ages to further focus on intervention studies that optimize adult bone strength.
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ISSN:0937-941X
1433-2965
DOI:10.1007/s00198-016-3801-6