Nordic Walking for Individuals With Osteoporosis, Vertebral Fracture or Hyperkyphosis
OsteoporosisHyperkyphosis1 moreNordic walking is currently offered by a number of health care practitioners as a form of exercise therapy for older adults at risk of fracture. These include older individuals with osteoporosis, previous vertebral fracture, or hyperkyphosis. To the investigators knowledge, this practice is not evidence-based and thus potentially problematic as benefits and safety of Nordic walking for individuals with osteoporosis, fractures, or hyperkyphosis are unknown. The proposed study will answer the following principal question: Does Nordic walking improve mobility, physical function, posture, and quality of life for ambulant community dwelling individuals who have osteoporosis, a history of osteoporotic fracture, or hyperkyphosis? Participants will be randomized into either the Nordic walking intervention group, or the waiting-list control group. Participants will initially train 3 times per week for 3 months, led by peer- and/or student-instructors. The Nordic walking training will depend on the participant's skill and comfort level and will consist of walking with poles over a distance set individually for each participant. The control group will receive the same 3-month Nordic walking intervention after their control follow-up measurements are completed.
Digital Health Psychosocial Intervention for Adolescent Spine Surgery Preparation and Recovery
Juvenile; ScoliosisScoliosis Idiopathic4 moreThis is a randomized controlled trial to test effectiveness of the SurgeryPal intervention vs. education control to improve acute and chronic pain and health outcomes in youth undergoing major musculoskeletal surgery. Youth will be randomized on an individual level using a factorial design to SurgeryPal or Education during 2 phases of intervention: 1) pre-operative phase (4 week duration delivered over the 4 weeks leading up to surgery), and 2) post-operative phase (4 week duration following surgery). Thus there will be 4 treatment arms. Participants will undergo 4 assessments, independent of their treatment assignment: T1: Baseline (pre-randomization); T2: acute post-surgery outcomes (daily assessment of acute outcomes beginning day 1 through day 14 after hospital discharge from surgery); T3: Post-surgery follow-up (assessment of outcomes at 3-months post-surgery); T4: Final post-surgery follow-up (assessment of outcomes at 6-months post-surgery).
The Spinal Navigation Trial - Surgical Navigation or Free Hand Technique in Spine Surgery
ScoliosisKyphosisThe spinal navigation trial (SPINAV) is a randomized controlled trial (RCT) evaluating the use of computer-assisted navigation in surgery for spinal deformity
Effect of Scapular Stabilization Exercises on Scapular Muscles Strength and Kyphosis Index in Smartphone...
Muscle WeaknessSmartphone AddictionThis study will be conducted to investigate the effect of scapular stabilization exercises on scapular muscles strength (serratus anterior, lower fibers of trapezius, rhomboid major and minor), pain intensity level and kyphosis index in different duration of time using daily of smartphone in smartphone users.
Maitland Thoracic Mobilization Versus Mulligan Thoracic Mobilization in Kyphotic Patients With Shoulder...
Shoulder Impingement SyndromeKyphosis ThoracicIn recent years the management of shoulder impingement syndrome (SIS) included the thoracic spine as it was proved that it's highly correlated to pathologies in shoulder joint. SIS is proved to be associated with kyphotic posture. Also, It was proved that changing sitting posture affects the measured ROM of shoulder joint and this implicates the influence of changing thoracic position on shoulder mechanics. Explanations were made regarding the role of thoracic spine in affecting the shoulder joint through two ways. Firstly, through affecting the mechanics of scapular movements and secondly through altering the length tension relationship of shoulder musculature. This study would aim at studying the most effective thoracic mobilization in the treatment of SIS.
Validation of Clinical Assessment of Spinal Stiffness
HyperkyphosisAdolescent Idiopathic ScoliosisThis 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.
IMU-based Assessment of Motor Control in a Population of Young Subjects With Paramorphisms and Dysmorphisms...
Genu VarumGenu Valgus10 moreWhile 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.
Effect of a Flexibility Program on the Extensibility of the Hamstrings and the Thoracic and Lumbar...
Spine InjuryHamstring Injury2 moreThe 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.
Effects of Lumbal Lordosis and Thoracic Kyphosis Angles on Muscle Activations
Low Back PainPosturalWhen the thoracic kyphosis and lumbar lordosis are within a normal range of angular values back pain is less likely to occur. Angular modifications in the physiological curvatures of this sagittal plane have been shown to indicate spinal disorders. For instance, increasing lumbar lordosis and thoracic kyphosis result in higher intradiscal pressure, tension in the spine's passive parts, and creep in the lumbar viscoelastic structures. One of the most important factors of human biomechanics, spinal curvatures provide optimal energy expenditure and movement capacity. Abnormal adaptations in thoracic and lumbar spine biomechanics can cause low back and back pain. Multiple spinal segments are covered by the lumbar erector spinae muscle (LES), which is regarded as a superficial back muscle. LES consists of two muscles, the longissimus thoracis and iliocostalis lumborum. To move the lumbar spine, the lumbar erector spinae muscle (LES) is recruited in a manner that depends on the applied force. It was suggested that patients used LES to compensate for laxity in passive ligamentous structures in an attempt to reduce excessive force on the lumbar spine. Excessive lumbopelvic movements and altered muscle activation patterns are common in patients with low back pain. Researchers have investigated the timing of each muscle's onset and the activity of the LES, and found that patients with low back pain had higher LES activation compared to healthy people. Exercises for strengthening the LES muscle have been performed trunk extension during prone position. Strenghening LES and thoracic extansors may lead to decrease or prevent painful spinal disorders, improve thoracic excessive kyphosis and other complications. Prone trunk extension exercises is used to clinically exercise approcah to activate weak and susceptible to fatigue LES muscle in patients with nonspecific low back pain. This exercise lead to not only strentghening but also lengthening and streching these muscles. To fully understand the effects and underliying the mechanism of this exercise, biomechanical changes in lumbopelvic movement patterns of individuals with kyphotic posture should be examined. Based on current evidence, it is not clear the mechanism that the prone trunk extension exercises is effective on different spinal alignment postures as excessive thoracic khyposis and compansation mechanism on lumbal lordosis. Thus findings from this research may guide clinicians to examine the effects of different prone trunk extension exercises on LES muscles activation. Mitani et al showed that different upper extremity postures effects the lumbal multifudis activations during standing. Brown et al indicated that sit-stand workstations do not change muscle activations of lumbar muscles. Muyor et al concluded that spinal aligment of cyclists affects core muscle activity during cyling. Wattananon et al demonstrated that clinicians should focus on muscle activation patterns rather than the amount of lumbopelvic motion during prone hip extension. Based on the current studies, and to optimally address the underlying mechanism that the main objective was to investigate and show the effects of lumbal lordosis and thoracic kyphosis angles on muscle activations during different low back exercises.
Anterior Spinal Canal Reconstruction and Fusion Surgery for Treating Degenerative Cervical Kyphosis...
Degenerative Cervical Kyphosis With StenosisDegenerative cervical kyphosis with stenosis (DCKS) is a common cervical spine degenerative disease, causing pain, numbness, and weakness of limbs, which seriously affect the quality of life of the patient. Surgery is an effective way to treat this condition, however, the best surgical procedure is still controversial. Anterior spinal canal reconstruction and fusion surgery (ACRF) is a new surgical procedure that previously proposed by our team, it combines the advantages of both the conventional anterior and posterior approach. The purpose of this study is to evaluate the safety and effectiveness of ACRF surgery for treating DCKS. A multicenter prospective randomized controlled trial was designed. Eligible patients will be randomly divided into three groups, including the ACRF group, the conventional anterior surgery group, and the conventional posterior surgery group. Demographic data, surgery Information, and follow-up results will be collected and compared between groups.