View clinical trials related to Hip Dislocation.
Filter by:EUROSSTEM is intended for use in primary and revision total hip replacement surgery. Hip replacement is intended to provide increased patient mobility and reduce pain by replacing the damages hip joint articulation in patients where there is evidence of sufficient sound bone to seat and support the components. As part of post market vigilance, EUROS will collect data on EUROSTEM performances and safety
EUROSCUP MOBILE is intended for use in primary and revision total hip replacement surgery. Hip replacement is intended to provide increased patient mobility and reduce pain by replacing the damages hip joint articulation in patients where there is evidence of sufficient sound bone to seat and support the components. As part of post market vigilance, EUROS will collect data on EUROSCUP MOBILE performances and safety
This Post Market Clinical Follow-Up (PMCF) study to evaluate the performance and safety of the cemented TrendHip® stem in a prospective follow-up study with patients who underwent a hip arthroplasty with the investigational product (representative of usual clinical practice), at two follow-up examinations
The purpose of this study is to compare OR3O™ Dual Mobility System to a conventional, single-bearing design Total Hip System in subjects who undergo Primary THA. Data collected in this study will be used to support National Medical Products Administration (NMPA) regulatory approval of OR3O™ Dual Mobility System in China as well as to support and maintain product registration in global markets. Primary Objective: Assess safety and efficacy of the OR3O™ Dual Mobility System in Primary THA at 1 year postoperative. Secondary Objective(s): Assess safety and efficacy of the OR3O™ Dual Mobility System and compatible components in Primary THA up to 2 years after surgery. Other Objective(s): Assess the hip dislocation and hospital readmission up to 2 years after device implantation. 4 study sites in China.
The purpose of this study is to determine if the utilization of Ischemic Pre-Conditioning 24-hours prior to hip arthroscopy decreases patient's post-operative pain and opioid consumption.
A random population of 200 CT scans of pelvis and thigh in an adult population affected by hip dysplasia will be selected. The aim of this study is to evaluate the biomechanical reconstruction of the hip anatomy provided by three different hip stem designs in dysplastic cases, using a 3D CT based software for pre-operative planning.
This effectiveness trial will investigate if patients with hip dysplasia randomised to exercise and patient education have a different mean change in self-reported pain measured by the Copenhagen Hip and Groin Outcome Score (HAGOS) compared with those randomised to usual care over a six-month follow-up period. Participating patients will be allocated to either exercise and patient education or usual care. Alongside this, a health-economic study and a process-evaluation study will be conducted.
The general purpose of this study is to examine whether the dual mobility cup (Novae® Serf) reduces the number of hip dislocations after total hip replacement, both early dislocation (≤1 year) and late dislocation (>1 year) after primary THR compared with a conventional cup design (Trabecular MetalTM Modular Acetabular System).
This cross-sectional study investigates the physical capacity of patients, who have undergone a periacetabular osteotomy for hip dysplasia within the last 1-5 years.
Hip Dysplasia, or Developmental dysplasia of the hip (DDH) is a congenital disorder of the hip joint characterized by a shallow, or dysplastic hip socket, with potential risks of developing progressive joint dislocation, early osteoarthritis from young adulthood and serious functional disability. The Hip Cohort Study is the first longitudinal, population-based hip "phenobank" which includes standardized ultrasound examinations of the newborn hip, radiographs at skeletal maturity (around 19 years), as well as clinical data and DNA samples from the participants. The combination of genetic analyses with the rich radiological and clinical data collected at different life stages during the first two decades of life will enable identification of biological pathways (advanced genetic analyses) that are significantly associated with different radiological indices of hip dysplasia. This will allow for early, targeted treatment of the DDH disease and thus reduce the risk of later osteoarthritis.