Clinical Research Directory
Browse clinical research sites, groups, and studies.
Analysis of the Biomechanical Impact of Lower Limb Length Inequality in PEDiatrics
Sponsor: Hospices Civils de Lyon
Summary
Lower limb length discrepancy (LLD) is a frequent condition in pediatric orthopedics. Even moderate discrepancies can induce pelvic obliquity and compensatory scoliosis, modifying the distribution of joint loads at the hips and lumbar spine. These biomechanical imbalances are suspected to contribute to early degenerative conditions such as osteoarthritis or chronic low back pain. The aim of this study is to quantify the biomechanical impact of LLD in children aged 10 to 15 years, using a combination of low dose biplanar EOS imaging (EOS Imaging System) and synchronized ground reaction force (GRF) measurements from integrated force platforms. These data will be used in musculoskeletal models developed in collaboration with the Biomechanics and Impact Mechanics Laboratory (LBMC, Laboratoire de Biomécanique et Mécanique des Chocs), enabling the estimation of hip joint and lumbar intervertebral disc loads. This is the first pediatric study integrating EOS imaging, force platforms, and personalized musculoskeletal modeling to explore the mechanical consequences of LLD. The findings are expected to improve clinical reasoning and guide early therapeutic strategies.
Official title: Biomechanical Analysis of the Impact of Lower Limb Length Discrepancy on Hip and Lumbar Spine Joints in Children
Key Details
Gender
All
Age Range
10 Years - 15 Years
Study Type
OBSERVATIONAL
Enrollment
100
Start Date
2025-11-30
Completion Date
2029-01-30
Last Updated
2025-12-04
Healthy Volunteers
No
Interventions
EOS Imaging System
Low-dose biplanar radiographs of the whole body in standing position (EOS Imaging System). At baseline, two EOS acquisitions will be performed in static standing position : one without compensation (natural position) and one with temporary orthopedic compensation (shoe lift under the shorter limb). At 24 months, one EOS acquisition will be performed without compensation. Each acquisition lasts a few seconds, with radiation exposure 5 to 10 times lower than conventional radiographs.
Force Platform (Bertec®, integrated into EOS cabin)
Ground reaction force (GRF) measurements obtained from a force platform integrated in the EOS cabin. The platform records weight distribution and center of pressure during static standing posture. Measurements are fully synchronized with EOS acquisitions, without additional time or discomfort for participants. At baseline, GRF measurements will be collected in two conditions (with and without orthopedic compensation). At 24 months, GRF measurements will be collected in the non-compensated condition.