View clinical trials related to Adolescent Idiopathic Scoliosis.
Filter by:Adolescent idiopathic scoliosis (AIS): It is the type of structural scoliosis whose etiology is unknown and is most common in female individuals between the ages of 10-18. In addition to spinal deformity, postural asymmetry, proprioceptive sense, and dysfunctions in the vestibular and vestibulospinal systems can also be seen in AIS. The Schroth method is a scoliosis-specific exercise approach that uses postural, scoliosis-specific sensorimotor and breathing exercises and is widely used in scoliosis rehabilitation. The treatment program consists of scoliotic posture correction with the help of exteroceptive and proprioceptive stimulation and mirrors, isometrics and other exercises to lengthen or strengthen asymmetric muscles while maintaining a certain breathing pattern. Various studies have shown that the Schroth method improves Cobb angles, slows curve progression, reduces the need for surgery, increases back muscle strength, and increases respiratory function. However, although the Schroth method is widely used in AIS rehabilitation, no studies have been found investigating the effects of Schroth exercises on proprioceptive sense and corticospinal pathways. The purpose of this study is to examine the effect of the Schroth method on proprioceptive sense and corticospinal pathways in individuals with AIS.
Adolescent idiopathic scoliosis (AIS) poses challenges in achieving optimal three-dimensional correction. While posterior fusion with pedicle screws has shown success, osteotomy techniques, such as Ponte osteotomy, have further improved outcomes. However, residual vertebral rotation remains a concern, impacting long-term complications. Intervertebral disc release (IDR) presents a potential solution to enhance derotation and reduce fusion levels, particularly in Lenke Type 5 AIS. This prospective randomized controlled trial aims to evaluate the clinical effectiveness of IDR in treating Lenke 5 AIS, comparing it to Ponte osteotomy. The study focuses on axial vertebral rotation correction, coronal curve improvement, blood loss, hospital stay, and adverse events. Participants aged 10-18 with Lenke 5 AIS will undergo either IDR or Ponte osteotomy, randomly assigned. Outcome measures include axial rotation correction rate, radiographic parameters, and clinical assessments. A total of 132 participants will be recruited. The IDR technique, through posterior disc removal, presents a promising approach to optimize derotation in Lenke 5 AIS. While offering potential advantages, challenges like limited working space and bleeding risks require careful consideration. The study's findings aim to provide robust clinical evidence, enhancing treatment strategies for Lenke 5 AIS and offering innovative approaches for AIS as a whole.
This study is a randomised controlled trial designed to compare two adapted physical activity treatments for adolescent idiopathic scoliosis (AIS). The main hypotheses it aims to address are as follows: - Treatment with a HIIT (High-Intensity Interval Training) type training program via tele-rehabilitation, supervised by an adapted physical activity teacher, is effective in AIS. - A 12-week physical activity program maintains this efficacy over the long term. To test this hypothesis, Two groups of adolescents will be evaluated: a first group made up of non-athletic adolescents suffering from Idiopathic Scoliosis who will benefit from a tele-rehabilitation (physical activity sessions at home supervised by a teacher in adapted physical activities by video). A second group, control, also made up of non-athletic adolescents suffering from Idiopathic Scoliosis who will benefit from a self-program at home consisting of exercises specific to their scoliosis.
In individuals diagnosed with AIS, significant regressions in curvature were observed with the use of schroth exercises and brace. It is known that neurological changes affect the vestibular system and create changes in the individual's balance and proprioception. At the same time, when static and balance are examined, it is seen that they have difficulty in maintaining their dynamic balance and their body center of gravity oscillations increase. There are a limited number of studies in the literature evaluating individuals diagnosed with AIS in the combined treatment of brace use and Schroth exercises.
In individuals with lumbar curvature, significant regressions in the curvature have been observed with spinal orthosis treatment, especially with use of a minimum of 20 hours a day. Symptoms such as numbness and decreased sense of touch are observed in the areas where the curvature is located, and changes in the skin structure are affected by the changes in the spine. Sensory testing may vary with changes in body posture. At the same time, the use of spinal orthosis, balance, fat mass, and the presence of pain show us sensitivity to touch on the skin. Sensory stimuli on the skin and trunk posture are interconnected. There are a limited number of studies in the literature examining the effects of sensory test results and fat mass on individuals diagnosed with AIS after using a spinal orthosis.
The purpose of this study is to assess the effect of virtual reality on subjective post-operative pain, total inpatient narcotic administration, and mobilization with physical therapy in pediatric patients who have undergone surgical correction for idiopathic scoliosis.
Adolescent idiopathic scoliosis (AIS) is the most common three-dimensional deformity of the spine that is typically characterized by curvature in both the coronal and sagittal planes. Selective thoracolumbar fusion (STLF) surgery, is an established corrective surgical technique for spinal deformities with excellent outcomes over time1. The objective of AIS corrective surgery encompasses the rectification of coronal and spinal rotation deformities while concurrently restoring the sagittal profile. However, some scholars suggested that correcting the Cobb angle and rotation deformity of the main thoracic curve has been associated with a sacrifice of sagittal plane aligament. Some researchers observed that significant reduction of thoracic kyphosis (TK) after the coronal deformity was corrected in their study3-5. In addition, Li et al3 found that both lumbar lordosis(LL) and sacral slope (SS) decreased after STLF surgery in their study. The sagittal plane of the spine column should be considered a chain-like structure, one section's change, that leads to compensatory changes in other segments, enables the maintenance of balance6. In addition, some scoloars suggested that the decrease in thoracic kyphosis may caused by vertebral derotation in STLF surgery. Postoperative shoulder imbalance (PSI) is a common complication that arises following STLF surgery, significantly impacting the appearance and satisfaction of patients8. The incidence of PSI varies within a range of 25% to 57%. It is imperative to identify the independent risk factors of PSI which can help in comprehending this phenomenon better and further aiding in deduction of the incidence rate. Although the research on the risk factors for PSI in AIS patients have been conducted for several years , no conclusively determination has been reached. Recently, scholars have been studying the relationship between the rotation of the thoracic spinal column and postoperative shoulder balance. Yagi et al.'s study10 has identified the preoperative rotation of the main thoracic apical vertebrae as a risk factor for PSI. Additionally, Masayoshi et al has reported on the relationship between the rotation of the proximal thoracic apical vertebrae and postoperative shoulder height disatance. In summary, it can be hypothesized that the preoperative and changes of postoperative sagittal spinal parameters may impact the postoperative shoulder balance among AIS patients. However, there is a paucity of literature investigating the effect of sagittal spinal parameters on PSI after STLF surgery. Therefore, the purpose of this study is to examine the correlation between the preoperative and postoperative alterations of sagittal spinal parameters and PSI.
Idiopathic scoliosis is a three-dimensional deformity of the spine that accounts for approximately 70% of all scoliosis anomalies, and adolescent idiopathic scoliosis (AIS) is the most common type. AIS not only changes the shape of the trunk, but also the relationships between body parts. Considering the close anatomical relationship between the scapula and the rib cage, AIS is associated with changes in scapular position and orientation. Scapular stabilization exercises; these are exercises that aim to restore the position and orientation of the scapula and the motor control and movement pattern of the muscles, thus providing scapula stability for better shoulder kinematics. There are studies reporting that scapular stabilization exercises should be included in the rehabilitation program of patients with scapular dyskinesia and various shoulder pathologies. However, no study has been found in the literature examining the effects of scapular stabilization exercises on changes in scapular position, shoulder imbalance and curve severity seen in scoliosis. Therefore, the aim of the study is to investigate the effect of scapular stabilization exercises applied in addition to Schroth exercises used in the treatment of individuals with AIS, on scoliosis severity, scapula position and shoulder imbalance.
This study is a randomized controlled trial of preoperative oral iron supplementation, to identify whether iron deficiency is a modifiable risk factor for adverse surgical outcomes such as red blood cell transfusion and diminished postoperative cognitive and physical capacity in adolescents undergoing scoliosis surgery. Research Question(s)/Hypothesis(es): Primary - Iron supplementation will reduce the incidence of perioperative RBC transfusion in iron deficient scoliosis patients undergoing spinal fusion. Secondary - Iron supplementation will reduce postoperative neurocognitive functional declines in iron deficient scoliosis patients undergoing spinal fusion. - Iron supplementation will improve patient-reported physical functioning in iron deficient scoliosis patients undergoing spinal fusion.
The vertebral column is a structure that transfers the weight of the head and torso to the lower extremity, provides trunk movements and protects the spinal cord.A three dimensional deformity involving lateral flexion of the vertebrae in the frontal plane at 10 ° and above, including axial rotation and physiologic flexion (hypokyphosis) components in the sagittal plane, is defined as scoliosis. Adolescent idiopathic scoliosis (AIS) is a type of idiopathic scoliosis that occurs in the period from the onset of puberty (up to 10 years) until the closure of growth plates. Scoliosis is caused by postural, balance and neuromotor disorders as a primary cause of impaired sensory integrity, proprioceptive feedback deficits, secondary lung problems, organ disorders and pain. In addition, the quality of life in these individuals is also seen to decrease. There are no studies in the literature examining the effects of Schroth exercise training on trunk muscle strength, respiratory muscle strength, trunk muscle stiffness, balance and quality of life in children with adolescent idiopathic scoliosis. The aim of our study is to examine whether Schroth exercise training has an effect on trunk muscle strength, trunk muscle stiffness, respiratory muscle strength, balance, quality of life and perception of cosmetic deformity in children with adolescent idiopathic scoliosis. It is thought that this study will fill the gap in the literature with the original information it will bring to the literature and will shed light on future studies.