In this study, the investigators seek to describe the normal 3D hip joint morphology in asymptomatic volunteers and compare it to various hip joint deformities. Asymptomatic volunteers will be asked to undergo a non-contrast MRI of the hip at 3 Tesla, utilizing a high-resolution morphologic 3D sequence (3D T2 DESS) that enables the segmentation of labrum and cartilage. 3D morphological parameters of the asymptomatic group will subsequently be compared with the 3D morphological parameters of patients with hip deformities, which were collected as part of a previous retrospective study.
Hip deformities can cause hip pain and early onset osteoarthritis in young individuals. Correcting these deformities typically involves planning with X-rays and MRI images, which offer a limited view of the hip joint's 3D structure. A comprehensive 3D analysis of hip structures, including cartilage, and labrum, would enhance diagnosis and surgery planning. However, 3D hip morphology hasn't been adequately described for distinguishing deformities. The aim of this study is to describe normal 3D hip joint morphology in healthy participants and compare it to various hip joint deformities (Dysplasia, acetabular protrusion, retroversion, deep hip, and cam deformity). Asymptomatic volunteers will undergo a non-contrast MRI of the hip at 3 Tesla using high-resolution morphologic 3D sequence (3D T2 DESS), which allows segmentation of labrum and cartilage. The 3D morphological parameters of the asymptomatic group will then be compared with those of patients with hip deformities, data sourced from a retrospective study that included 100 patients from the outpatient clinic. These patients underwent direct MR arthrography at 3 Tesla in accordance with the institutional routine protocol at the Department of Diagnostic, Interventional, and Pediatric Radiology at Inselspital.
Study Type
OBSERVATIONAL
Enrollment
60
Asymptomatic volunteers will undergo a non-contrast MRI of the hip at 3 Tesla. Following this, MRI images will be automatically segmented utilizing a validated artificial intelligence based algorithm to calculate 3D outcome parameters.
The data was derived from a retrospective study involving patients at Inselspital's outpatient clinic who underwent 3 Tesla hip MRI scans with intra-articular contrast agent. A validated artificial intelligence based algorithm was utilized for automated segmentation and the calculation of 3D outcome parameters.
University Hospital of Bern (Inselspital)
Bern, Switzerland
RECRUITINGCartilage Surface Area
Difference in hip cartilage surface area (both absolute - mm² and relative - %) between healthy volunteers and patients with hip deformities.
Time frame: Within 12 Months after MRI
Cartilage Thickness
Difference in hip cartilage thickness (mm) between healthy volunteers and patients with hip deformities
Time frame: Within 12 Months after MRI
Cartilage Orientation
Difference in hip cartilage orientation, measured in inclination (°) and anteversion (°), between healthy volunteers and patients with hip deformities.
Time frame: Within 12 Months after MRI
Cartilage Volume
Difference in hip cartilage volume (mm³) between healthy volunteers and patients with hip deformities.
Time frame: Within 12 Months after MRI
Labrum Length
Difference in labrum length (mm) between healthy subjects and patients with hip deformities.
Time frame: Within 12 Months after MRI
Labrum Area
Difference in hip labrum surface area (both absolute - mm² and relative - %) between healthy volunteers and patients with hip deformities.
Time frame: Within 12 Months after MRI
Labrum Volume
Difference in hip labrum volume (mm³) between healthy volunteers and patients with hip deformities.
Time frame: Within 12 Months after MRI
iHOT 12 Questionnaire
The iHOT-12 is a validated questionnaire for young, active individuals with early hip disease. It covers four domains: symptoms and limitations, sports and recreation, job concerns, and social/emotional aspects. Responses are marked on a 100-mm scale, with the total score as a simple mean ranging from 0 to 100, where 100 represents the best possible quality of life.
Time frame: ca. 5 minutes before MRI
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