Morphological variation in paediatric lower limb bones

Carman, Laura; Besier, Thor F.; Choisne, Julie

doi:10.1038/s41598-022-07267-4

Cited by 11 publications

(8 citation statements)

References 30 publications

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“…Pelvis, femurs, tibias and fibulas were manually segmented from the LAVA Flex Autobind WATER sequence using Stradview (University of Cambridge, United Kingdom) (Cignoni et al, 2008). The resulting point cloud was smoothed and remeshed using Meshlab (Carman et al, 2022). Each of the bones meshes in the dataset were fitted to a template mesh (one for the pelvis, one for the femur and one for the tibia/fibula) to achieve nodal correspondence for each bone.…”

Section: Bone Modelling Methodologymentioning

confidence: 99%

Roadmap for an imaging and modelling paediatric study in rural NZ

Kumar

Green²,

Cornfeld³

et al. 2023

Front. Physiol.

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Our study methodology is motivated from three disparate needs: one, imaging studies have existed in silo and study organs but not across organ systems; two, there are gaps in our understanding of paediatric structure and function; three, lack of representative data in New Zealand. Our research aims to address these issues in part, through the combination of magnetic resonance imaging, advanced image processing algorithms and computational modelling. Our study demonstrated the need to take an organ-system approach and scan multiple organs on the same child. We have pilot tested an imaging protocol to be minimally disruptive to the children and demonstrated state-of-the-art image processing and personalized computational models using the imaging data. Our imaging protocol spans brain, lungs, heart, muscle, bones, abdominal and vascular systems. Our initial set of results demonstrated child-specific measurements on one dataset. This work is novel and interesting as we have run multiple computational physiology workflows to generate personalized computational models. Our proposed work is the first step towards achieving the integration of imaging and modelling improving our understanding of the human body in paediatric health and disease.

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Section: Bone Modelling Methodologymentioning

confidence: 99%

Roadmap for an imaging and modelling paediatric study in rural NZ

Kumar

Green²,

Cornfeld³

et al. 2023

Front. Physiol.

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“…The pelvis, femurs, and tibia/ bulas were segmented from the CT scans and meshed into a 3D surface as outlined in a previous study [20]. A template mesh for each bone was then t to each segmented bone model, to achieve nodal correspondence between meshes.…”

Section: Bone Measurementsmentioning

confidence: 99%

“…A template mesh for each bone was then t to each segmented bone model, to achieve nodal correspondence between meshes. This was achieved by 1) non-rigidly registering the template model and 2) iteratively mesh tting the template model to the segmented data using radial basis functions [20]. Bones were aligned to an International Society of Biomechanics coordinate system convention [23] using automatic detection of bony landmarks calculated from each 3D mesh to ensure all bones were in the same orientation for measurement.…”

Section: Bone Measurementsmentioning

confidence: 99%

“…To use the automated bone measurement methods developed in this study, three-dimensional bone surfaces reconstructed from full lower limb CT or MRI scans are required. This limits the application of our method, however, we have also developed statistical shape models that can be used to predict the bone morphology from sparse anatomical landmarks [20]. Future integration of these methods will enable clinicians to compare patient-speci c data to our population norms.…”

Section: Limitationsmentioning

confidence: 99%

“…However, discrepancies between imaging and measurement modalities [19], make comparisons challenging. Fitting 3D models to medical imaging data can alleviate these challenges [20], [21], providing a consistent and reproducible frame of reference for future comparison [22].…”

Section: Introductionmentioning

confidence: 99%

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Sex differences in linear bone measurements occur following puberty but do not influence femoral or tibial torsion

Carman

Besier

Stott

et al. 2023

Preprint

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Torsional, angular, and linear measurements in a paediatric population are clinically important but not well defined and understood. Different methods of measurement and discrepancies between assessors leads to a lack of understanding of what should be defined as typical or atypical for the growing skeleton. From a large dataset of 333 paediatric CT scans, we extracted three-dimensional torsional, angular, and linear measurements from the pelvis, femur, and tibia/fibula. Sex differences in linear measurements were observed in bones of children aged 13+ (around puberty), but femoral and tibial torsion were similar between males and females. The rotational profile (femoral anteversion minus tibial torsion) tended to increase with growth. Epicondylar, condylar, and malleolar widths were smaller in females than males for the same bone length after the age of 13 years, which could explain why females may be more at risk for sport injuries during adolescence. This rich dataset can be used as an atlas for researchers and clinicians to understand typical development of critical rotational profiles and linear bone measurements in children.

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Combined Shape Model of the Lower Limb in a Pediatric Population Provides Accurate Bone Shape Estimation

Choisne,

Carman

2024

Computer Methods in Biomechanics and Biomedical Engineering II

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Morphological variation in paediatric lower limb bones

Cited by 11 publications

References 30 publications

Roadmap for an imaging and modelling paediatric study in rural NZ

Roadmap for an imaging and modelling paediatric study in rural NZ

Sex differences in linear bone measurements occur following puberty but do not influence femoral or tibial torsion

Combined Shape Model of the Lower Limb in a Pediatric Population Provides Accurate Bone Shape Estimation

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