View clinical trials related to Kyphosis.
Filter by:The primary objective of this study is to determine if stretching exercises as a conservative treatment option will correct kyphosis in postural and Scheuermann's kyphosis.
the present study examined the effect of different types of exercises for improving the age-related hyperkyphotic curve of postmenopausal women and also examined how it affects diaphragmatic excursion and respiratory function. Increasing the respiratory functions for elderly will act as a preventive method against nowadays chest diseases.
This study aims to investigate the effectiveness of a 4-week postural correction exercise program in reducing FHP in children carrying heavy backpacks to school. This study's findings could have significant implications for preventing musculoskeletal problems associated with FHP. Furthermore, the study's findings could inform healthcare professionals and educators about the importance of promoting healthy postures among children and adolescents to prevent long-term musculoskeletal problems. This is an experimental study. Subjects will be divided into two groups. Group A (control group) and group B (experimental group).fun activities will be performed by experimental group under the supervision of the therapist.
Spinal cord compression is commonly seen in patients with severe kyphosis. However, conventional morphologic magnetic resonance imaging (MRI) was unable to detect the damage in microstructural integrity of the spinal cord around the apical vertebrae in these patients. The aim of the study was to evaluate the neuronal metrics/microstructure of the spinal cord around apical region in patients with hyperkyphosis using diffusion tensor imaging (DTI).
The proper selection of the lowest instrumented vertebra (LIV) remains controversial in the surgical treatment of Scheuermann's disease and there is a paucity of studies investigating the clinical outcomes of fusion surgery when selecting the vertebra one level proximal to the sagittal stable vertebra (SSV-1) as LIV. The purpose of this study is to investigate whether SSV-1 could be a valid LIV for Scheuermann kyphosis (SK) patients with different curve patterns.
This study aims to validate and verify the reliability of the clinical measures used in the daily routine by doctors and therapists that allow assessing the spinal stiffness in all spatial planes. The secondary objective is the verification of the diagnostic accuracy of the most reliable tests in identifying the subjects at risk of failure, using as a radiographic standard the examinations performed by the patients during the treatment (data retrieved retrospectively) using as a control group those patients who did not obtain a correction of the spine curvature.
The scapula provides the base of the kinetic chain, which is stabilized by the surrounding muscles. Considering that activating the scapular musculature to stabilize the spine would restore the relationship between body segments, analyzing the scapular muscle activations in the treatment of hyperkyphosis may be a crucial component of an effective therapeutic program. Video games can be used to stimulate scapular muscles in children with thoracic hyperkyphosis because a game-based exercise program has been observed to increase voluntary motor control in children, thereby promoting selective muscle activation. The purpose of this study is to investigate the impact of video game therapy on the activation of scapular muscles and postural stability in children with thoracic hyperkyphosis, as well as the contribution of these variables to upper extremity performance.
Hyperkyphosis, defined as excessive sagittal curvature of the thoracic spine, is the most common spinal deformity in elderly individuals. The prevalence of hyperkyphosis in elderly individuals is reported to be between 20% and 40%. Hyperkyphosis affects the mobility, walking, and balance of the individual negatively and causes changes in the physical performance of elderly individuals. Therefore, it is important to evaluate and treat hyperkyphosis in elderly people. One of the approaches to treating people with hyperkyphosis is the use of spinal orthoses such as the Spinomed orthosis and Biofeedback orthosis. Regular use of spinal orthoses reduces the angle of kyphosis by 11%. In addition, spinal orthoses help increase walking speed and distance, improve balance, and prevent falls. Spinomed and Biofeedback soft posture orthoses are spinal orthoses used in the treatment of kyphotic posture. Studies on Spinomed orthosis have demonstrated that it strengthens postural muscles, and therefore also prevents falls. Soft orthoses, which provide feedback, provide a warning to the individual through sound or vibration when the spinal alignment of the individual is disturbed, and provide the correction of posture with active muscle strength. However, little evidence exists regarding the effect of these two orthoses on improving balance and walking performance in elderly people with thoracic hyperkyphosis. Therefore, this study was developed to enable a comparison of the effect of the Spinomed orthosis and the biofeedback orthosis on balance and walking performance in elderly people with thoracic hyperkyphosis.
The goal of this clinical trial is to analyse the effect of an intervention program based on hamstring flexibility on the extensibility and curvatures of the spine in dancers. Participants will be dance student with ten years of experience that will undergo a program of stretching four times per week during seven weeks, followed by a detraining period, and a retraining period of three weeks. There will be a pre-test, a post-test and two re-tests after the intervention. The results will be compared with a control group of dancers that will not take part in the stretching program.
While various complex pathologies of the developmental age, such as Infantile Cerebral Palsy or Neuromuscular Diseases, are notoriously considered causes of alteration of locomotor development, it is scarcely known whether conditions much more frequent in the pediatric population, the so-called "Paramorphisms or Dysmorphisms", may be associated with more or less noticeable changes in locomotor development. On a few studies, flat feet and hyperlaxity has been correlated with a motor control delay or poorer motor performance, based on complex clinical tests or on stereophotogrammetry movement analysis. Although promising, these preliminary studies, in addition to not providing information on the possible influence of other paramorphisms, such as varus and valgus of the knees, do not provide conclusive indications. The aim of this study is to investigate, through clinical tests and wearable inertial units, the motor control of a pediatric population affected by Paramorphisms or Dysmorphisms and to compare them with a population of healthy controls, matched by age, taken from the recently developed control data set from Bisi and Stagni.