View clinical trials related to Scoliosis.
Filter by:In North America, children and adolescents with idiopathic scoliosis (IS) are rarely referred for a rehabilitation program whereas the European guidelines stated that scientific evidences concerning scoliosis specific physiotherapy exercises were strong enough to recommend the use of these exercises at an early stage. The objectives of this pilot study is to assess feasibility of conducting a larger randomized control trial (RCT) on the effect of global postural re-education (GPR) on scoliosis progression (Cobb angle) and posture, back pain and participation and to assess the equivalence of two groups of GPR interventions. A convenience sample of 60 adolescents with IS (Cobb angle 15º-50º, Risser sign ≤3) will be recruited at CHU Sainte-Justine. Participants will be randomly allocated to GPR-A (individual sessions once a week) or GPR-B (individual sessions once per two weeks alternately with class exercises once per two weeks) for 6 months. After 6 months, groups will be interchanged for another 6 months. Feasibility outcomes will be recruitment rate, consent rate, completion rate and adherence to treatment at 12 months. The primary outcome of the effect of GPR will be the Cobb angle. Secondary outcomes will be: posture, back pain and participation at 6 and 12 months. Statistical analyses: For feasibility, percentage of eligible patients recruited, percentage of recruited patients who completed the trial and adherence to treatment will be calculated. For the preliminary effects of GPR, linear mixed-models will be used to assess differences in groups' changes from baseline, to 6 and 12-month while adjusting for covariates (age, Risser, adherence). Separate analyses will be conducted for each outcome.
The SPINEREG study is a prospective observational registry. Eligible patients are subjects undergoing spine surgery at the participating institutions. Baseline health status and follow-up health status are recorded at pre-established steps.
This is a pilot study to collect preliminary short-term data concerning the safety and performance of the Green Sun Dynamic brace in a sample of subjects with adolescent idiopathic scoliosis who are currently being treated with a TLSO.
This study assesses the effectiveness of a new scoliosis brace design for adolescent idiopathic scoliosis (AIS) patients, named Ergonomic Brace, by comparing the outcome with hard brace in terms of three aspects: 1. To assess the efficacy in spinal correction 2. To evaluate the improvement made to the body appearance of AIS subjects 3. To evaluate the impacts on the quality of life (QoL) of AIS subjects All participants will be fitted with an Ergonomic Brace and required to wear it during the days of experiment only. The ongoing treatment with hard brace will not be substituted with the Ergonomic Brace, unless its immediate treatment effect is equivalent to hard brace and with approval from the doctor.
This study will be conducted without blind method. The portable seat device devised to maintain lumbar lordosis will be made within 1 year after the loss of ambulation in the participants with Duchenne muscular dystrophy with prospective design. In the control group, the presence of scoliosis will be calculated 5 years after the loss of ambulation in participants with Duchenne muscular dystrophy through analysis of retrospective medical records who had not been applied the portable seat device.
The study is quantifying how the patients' back has been corrected using Medicrea's hardware through imaging taken before,during and after the surgery.
The purpose of this current prospective study is to determine the role of vitamin D in the development and restoration of spinal deformities in adolescence.
Degenerative adult scoliosis (ADS) results from age related changes leading to segmental instability, deformity and stenosis. Patients with scoliosis demonstrate an altered gait pattern.Furthermore, scoliosis patients exert 30% more physical effort than healthy subjects to ensure habitual locomotion, and this additional effort requires a reciprocal increase of oxygen consumption. Bracing has been found to reduce pain within a short time in ADS patients. A new brace has recently become available, the Peak™ Scoliosis Brace (Aspen Medical Products), designed to alleviate pain in adult patients with chronic pain secondary to scoliosis. The purpose of this study is to investigate the impact of spinal bracing using Peak™ Scoliosis Brace on pain and lower extremities kinematics of gait.
Adolescent Idiopathic Scoliosis (AIS) is a curvature of the spine that occurs in 1-2% of otherwise healthy children, and requires corrective surgery, posterior spinal fusion (PSF) in ~10% of cases. Some studies suggest that pulmonary function is reduced in AIS and that PSF improves pulmonary function. The lung is composed of a large number of branching airways that terminate in gas exchanging units called alveoli, and the number and structure of these alveoli are partially dependent upon lung volume and the forces to which they are exposed--two factors predicted to be altered in AIS. This study uses MRI imaging of inhaled helium to quantify alveolar structure in children with and without AIS before and one-year after PSF. The goals of the study are to determine if alveolar architecture or number are altered in AIS and whether PSF impacts these same measures.
The overall goal of this proposal is to determine if quantitative sensory testing (QST) assessing pain modulation can be used as a clinical tool to optimize perioperative pain management. The central hypothesis is that the identification of patient's sensory pain profile allows personalizing therapeutic approaches to improve individualized pain management and thus prevents pain chronicity.