View clinical trials related to Adolescent Idiopathic Scoliosis.
Filter by:The aim of this study is to investigate the effects of scoliosis-specific exercises in adolescent idiopathic scoliosis patients, who had surgical indication, on functional capacity, cosmetic deformity perception, quality of life in postoperative period.
The ApiFix MID-C System is a unidirectional expandable rod, designed to be connected unilaterally to the spine via 2 anchor points on the concave side of a scoliotic deformity above and below the apex of the major curvature to treat adolescent idiopathic scoliosis. The MID-C System is designed to act as an internal brace. Patients implanted with the device in the US within 2 years of FDA's approval of H17001 should be enrolled in the study. A minimum number of 200 patients will be enrolled in this study.
This is a prospective study for Investigating the cost-effectiveness of current bracing protocols for adolescent idiopathic scoliosis (AIS). It is hypothesized that aggressive management of adolescent idiopathic scoliosis (AIS) including early bracing at mild curve magnitudes and surgery at 40 degrees is more cost-effective while maintaining similar health quality of life. Scoliosis Research Society 22-item and EuroQol- 5 dimension questionnaires and direct/indirect medical costs will be utilized for the cost-effectiveness analysis and health related quality of life assessment. The findings of this study have the potential to improve decision-making and revolutionize care of AIS patients in Hong Kong and globally. Clinicians will be able to utilize our results to provide the best and most cost-effective timing for initiating brace treatment.
This study evaluates the combined effect of botulinum toxin A (administered as Dysport® (Ipsen Pharmaceuticals)) and bracing in children with adolescent idiopathic scoliosis. Two thirds of patients will be treated with Dysport® and bracing, while the remaining patients will be treated with placebo and bracing.
Through the ITF-Tier 3 project (ITS/ 237/ 11), a prototype of the posture correction girdle based on the clinical, textile science, material and ergonomics engineering analyses has been developed for preteen and teenage girls aged 10 to 13 who have the early stages of scoliosis. The girdle provides a corrective force onto the torso by the warping and elastic extension of the shoulder straps and waistband and the insertion of semi-rigid EVA padding and uses a point-pressure support system to achieve the target of posture improvement and spinal progression control with physical and psychological comfort. In order to evaluate the effectiveness of the posture correction girdle, it is proposed to recruit 10 patients to take low dose x-ray (sterEOS) at QMH at supine position. Then, the patient should wear the girdle for two hours and take another x-ray at standing position. If the Cobb's angle of the patient on girdle at standing position can be same as her supine position. It can prove the effectiveness of the girdle.
Adolescent idiopathic scoliosis (AIS) involves three-dimensional spinal deformity in children aged between 10 and 16. Traditional braces modify the natural dynamics and thus the mechanical behaviour of the scoliotic spine through external constraints. Patients usually develop pressure ulcers and skin irritation when prescribed brace treatment for 18-23 hours per day. The excessive pressure, unknown pressure distribution and pressure shifting between the human body and the brace causes the effects of brace treatment to be unpredictable. Dynamic pressure monitoring system will be developed based on the body landmarks of scoliotic patients and critical areas where active pressure is applied by the brace. The overall pressure distribution and dynamic pressure between the body and the thoraco-lumbo-sacral orthosis (TLSO) rigid brace will be measured. The efficacy of the brace design will be evaluated, and the maximum compressive stresses that patients can endure on different body parts without pressure injury can be computed.
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.
The overall aim of the study is to utilize a novel device and smartphone application in order to improve measurement of patient compliance with at-home bracing for scoliosis as well as create a more accurate assessment of brace fit via continuous and objective measures of tension. These ground-breaking metrics will provide analyzable data to more accurately reflect and predict actual patient compliance as well as allow for further exploration of how to increase compliance, and thus, efficacy of bracing; it will additionally allow both physicians and patients to have a more reliable measure for brace fit by providing them with continuous data of fit via tension, and provide built-in feedback mechanisms to the patient to ensure proper tightness of the brace. Additionally, the study will investigate whether providing the wearer's own brace-wear compliance information directly to the patient and their caregiver(s) via the mobile app will further improve rates of compliance as compared to those who do not receive the same feedback mechanism.
The purpose of this study is to identify potential markers for curve progression in adolescent idiopathic scoliosis (AIS). Despite its prevalence and impact on child health, the etiology of AIS and molecular mechanisms underlying its development and progression remain poorly understood. Clinical criteria and features cannot adequately predict which children, diagnosed with mild disease, will undergo subsequent curve progression requiring intervention. The investigators hypothesize that alterations in specific genetic markers will be correlated with the progression of AIS curves over time. Thus, these markers could be used in the future to develop a reliable, inexpensive and relatively non-invasive cell based diagnostic test to (1) predict spinal curve progression in AIS, (2) select patients likely to benefit from early surgical intervention, and (3) potentially screen for asymptomatic children at risk of developing idiopathic scoliosis.