View clinical trials related to Kyphosis.
Filter by:The presedent study evaluates intra-rater and inter-rater reliability of the Smartphone inclinometer app and the flexicurve, on the thoracic kyphosis
The 4 main motor symptoms seen in Parkinson's patients are tremor, rigidity, postural instability and bradykinesia. In addition to these, another common symptom investigators encounter is balance problems. Increasing balance problems can lead to falls and fractures over time, which will further reduce the independence of Parkinson's patients who are not already active enough and reduce their quality of life. For these reasons, it is very important that balance is achieved and sustainable. It has been found in previous studies that spinal posture and body position sensation are affected in Parkinson's patients. But to our knowledge, no study has been found in the literature to address the effect these have had on balance function. In our planned study, investigators aim to investigate the effects of spinal posture and body position sensation on balance function.
Children with spastic diplegia are at an increased risk of spinal deformities. The most common types of these spinal deformities are scoliosis and kyphosis. Thoracic hyper-kyphosis may adversely affect balance in children with cerebral palsy . The treatment approaches for hyper-kyphosis involved both conservative and surgical treatments. The Conservative approach includes corrective exercises, positioning, and spinal braces. This study aimed to evaluate the effect of conservative orthotic management for kyphotic posture on balance control, and fall risk in cerebral palsied children of spastic diplegia.
Osteoporotic vertebral fractures often lead to postural changes, chronic spinal pain conditions and limited functionality. Orthoses that straighten the spine have been shown in studies to have a positive effect on pain, posture and the functional state of patients with a fresh vertebral fracture. The planned study investigates the effect of the orthosis "Spinomed active" in patients aged ≥ 65 years with at least one non-acute osteoporotic vertebral fracture (at least 3 months ago) and chronic back pain.
The effects of balanced posture and postural changes have been evaluated in specific populations with different factors that can affect body postures and balance, such as age, musculoskeletal system, and other metabolic diseases. Studies on postural kyphosis and balance involvement are very few in the literature especially in the health population. Of the few studies that have evaluated kyphosis and balance, most are limited by small sample size and the exclusion of men. Many have focused primarily on the geriatric population. The determination that the effect of thoracic kyphosis posture on trunk biomechanical alignment may be related to balance may contribute to new treatment recommendations in this area. The aim of this study is to investigate whether the thoracic kyphosis posture has an effect on static balance.
It has been reported that the head protrudes forward relative to the body from the sagittal plane associated with the anterior shifting of the line of gravity (LOG) relative to the base of support (BOS). On the other hand, the center of gravity (COG) has changed with the forward head posture (FHP) and is related to mechanical and musculoskeletal modifications due to postural control, which affects the whole body balance. Griegel-Morris et al. Reported that, after evaluating eighty-eight healthy participants, 66% had a forward head posture (FHP). In addition, he stated that the inverted head posture in the forward head posture will not only cause neck problems, but also can extend to the shoulder joint and thoracic spine. As a result, it causes a general imbalance in the musculoskeletal system. Jung-Ho Kang and his colleagues examined the effect of daily sitting times of computer users on dynamic and static balance and stated that balance ability decreased in heavy computer users. Another study on forward head posture (IBP) revealed that it limits ankle joint movement, especially in ankle plantarflexion.
Osteoporotic fractures of the vertebrae (bones in the back) cause substantial pain and disability. Exercise could help to prevent these fractures by increasing bone strength and improving posture. Unfortunately, not all exercises strengthen bone. Exercises that do work (e.g. heavy weight lifting) are not popular with women at risk of osteoporosis. The investigators will develop a feasible exercise programme that can be done at a community centre or at home, using resistance bands. The investigators will involve women in designing the programme and incorporate strategies to support behaviour change. The investigators will then examine whether the programme improves bone density, posture or muscle strength in eighty women. Half the women, chosen at random, will take up exercise whilst the remaining half act as a control group. The investigators will take bone scans to determine bone density, and measure spinal curvature and strength, before and after the six- month programme. Findings will be useful in making recommendations as to which types of exercise increase spine bone density and will help to design future research on maximising vertebral strength. If significant benefits are seen, the investigators will develop resources such as booklets and videos so that the intervention can be widely available.
The purpose of our study; is to investigate how balance parameters are affected in comparison with healthy children in children with thoracic hyperkyphosis and to examine the relationship of these results with muscle strength, shortness-flexibility, pain, range of motion, functional status, physical activity level and quality of life. The hypothesis of the study is that children with thoracic hyperkyphosis have impaired balance compared to their healthy peers. With this finding, it can be ensured that clinical evaluations and treatment strategies for balance in children with hyperkifosis are included in the treatment plan. 31 children with thoracic hyperkyphosis were included in the evaluation group, and 31 children with normal physiological curves were included in the control group. Participants were evaluated once by the physical therapist.
Introduction: An inappropriate posture in children for a while kept playing some instrument of the group of the rubbed string, can cause pain and alterations of the spine, as it continues to consolidate. Objective: To study the benefits acquired during the application of the Pilates Method combined with therapeutic exercise against the Therapeutic Exercise to reduce alterations of the vertebral rachis in children from 10 to 14 years old who play instruments of rubbed strings.
Spinal posture and imbalance are known to be related to increased muscle expenditure, with narrow "cone of economy" of muscle effort defining the most comfortable postures. Therefore, it is hypothesized that predicting the posture of the lowest muscle effort available for a patient with a given spinal alignment and body properties will correspond to the posture the patient will most likely assume. Based on established musculoskeletal models, a model application was configured to allow prediction of this optimal posture. This study aims to assess the validity of this approach and the value of using biomechanical modeling for pre-operative planning.