View clinical trials related to Orthopedic Disorder.
Filter by:Non-randomized monocentric open cohort study vs historical comparative group testing the efficacy of a multimodal prehabilitation program (based on physical activity, nutritional support and mental preparation) for unfit patients based on nutrition, physical activity and mental preparation in reducing postoperative complications in elective major surgery
WELBOW study is an international, ambispective and prospective, single arm, multicenter, observational, non-comparative, Post-Market Clinical Follow-up (PMCF).
Patient commonly present with orthopedic injuries in the emergency department. Musculoskeletal education has not historically been emphasized in American medical schools, and the effectiveness of an orthopedic surgery rotation has not been well studied in emergency medicine (EM) training. Competency in musculoskeletal education has been tested previously with a validated instrument, the basic competency exam (BCE), to assess baseline knowledge in primary care and emergency physicians. Residents from 2 different EM residency training programs will be given the BCE to determine baseline musculoskeletal knowledge prior to their orthopedic surgery rotations. A post-test BCE will be given to the residents from both EM training programs upon completion of their orthopedic surgery rotation and compared.
This study will look into the incidence of Transient neurological symptoms (TNS) after the intrathecal use of lidocaine in comparison to intrathecal Bupivacaine.
The immediate goal of the proposed research is to test the value of a new low-cost, low-dose standing CT system for efficient early detection of both joint degeneration and elevated contact stress. The standing CT scanner holds promise for detecting arthritic changes earlier than other imaging modalities because of the combination of its 3D nature and ability to image joints in a weight-bearing pose. A secondary goal of the proposed research is to enable predictive models for osteoarthritis risk based on measures of post treatment contact stress, both to inform treatment and so that new interventions can be tested in a manner incorporating risk stratification.
Motor imagery is increasingly used as a plasticity-booster to complement conventional rehabilitation. Here the investigators test the hypothesis that the combination of mental training with conventional rehabilitation may speed up the recovery in patients with total knee arthroplasty. The investigators also characterize the brain correlates of such recovery with imagery tasks for virtual reality environments.
The aim of this study is to investigate the possible effects that a motor limitation at the peripheral level might have on the ability to visually discriminate others' actions. Previous literature has shown that specific motor skills (motor expertise) facilitate the visual discrimination of domain-specific actions, and that these motor experts' superior abilities might be mediated by areas not only responsible for the visual recognition of movements (as it happens in non-expert subjects) but also involved in motor planning. Similarly, impairment in the motor system due to neurological damage modulates not only the ability to perform movements but also the ability to discriminate and predict the temporal course of observed actions. Based on these findings, it has been hypothesized that the motor representations of gait, despite being a hyper-learned motor pattern, might be subjected to modification as a result of an impairment of walking caused by a peripheral functional limitation in the lower limbs as the one characterizing orthopaedic patients who underwent a surgical operation for total knee arthroprosthesis. In this protocol, patients are thus required to perform visual discrimination tasks based on the observation of movements performed with either the upper or lower limbs, and their performance is expected to correlated with their functional impairments in movement execution. These results would indicate that the (in)ability to perform a movement might have an impact on its representation at the central level and on internal motion simulation capabilities, which also influence the ability to visual discriminate others' actions through action-perception transfer: this would suggest that rehabilitation in orthopaedic patients should take into account (and restore) such a central impairment in motor representations.
The incidence of Legg-Calvé-Perthes disease (LCPD) ranges from 0.4/100,000 to 29.0/100,000 children <15 years of age. There is significant variability in incidence within racial groups and is frequently higher in lower socioeconomic classes. The typical age at presentation ranges from 4 to 8 years (average 6.5 years).The optimal treatment goal in Legg-Calvé-Perthes disease (LCPD) is to obtain a spherical femoral head with good congruency to prevent or delay the onset of osteoarthritis after skeletal maturity. There is agreement that patients younger than 5years with a good remodeling capacity have a particularly excellent prognosis, irrespective of treatment.
The most commonly identified organism for Surgical Site Infection (SSI) in orthopedic surgery is Staphylococcus aureus but risk factors for mono microbial S.aureus SSI are not well-known. The aim of this study was to evaluated the incidence rate of S. aureus SSI over the years and risk factors of these infections in a french University Hospital.
The main objective of the investigators is to improve the quality of care in patients with orthopedic disorders followed in St Luc hospital (Brussels Belgium). To do this, the investigators want to assess the impact of Orthopedic treatments at the structural level (bone structure, muscle, etc.), at the functional level (mobility, strength, stiffness...), on the restriction of activities of patients (walking, make its care daily..) and on the limitation of participation in the life of every day (sport, work, social life, cultural...). This functional evaluation of patients with orthopedic disorders by the ICF model is an original approach rarely used in muscular-skeletal impairments that can very improve the management of these patients and their quality of life. In addition, the investigators associate the harvesting of all medical and computer data collected by high-precision tools in the surgical treatments, to better define the surgical precision and improve the quality of surgical care.