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The broad long-term objective is to develop an objective biomarker for spinal health based on aberrant or abnormal movement patterns during functional activities to better target spinal manipulation therapy (SMT) and other conservative treatments. The central hypotheses are a) that aberrant spinal motions and their location (area and level) are indicative of underlying spinal dysfunction, and b) that quantified 3D cervical spine intersegmental and global motion patterns during functional tasks can be used as a biomarker for subsequent clinical studies aimed at normalizing cervical kinematics. Specific Aim: Determine the extent to which SMT can modulate, or normalize, intersegmental motion in patients with neck pain. Rationale: SMT is a force-based biomechanical event whose hypothesized mechanism of action relies on moving the segment into the para-physiological zone, resulting in normalization of spinal kinematic function. Hypothesis: Severity of abnormal or aberrant motion, identified in those with NP, will improve following SMT. Approach: Participants with chronic mechanical neck pain will be recruited and randomized into one of three groups: 1) No Treatment, 2) Light Massage (pseudo- sham), and 3) Spinal Manipulative Therapy. Using a repeated measures study design, metrics of quality of spinal motion will be compared before and after the prescribed intervention.
The purpose of the data bank is to collect data on joint motion.
The objective of this project is to collect baseline data from a normative population of children that gender and age matches the population of patients expected to be treated by Mary Bridge Children's Research \& Movement Lab. This project seeks to recruit 20 male and 20 female typically developing individuals, between the ages of 3 and 25 years of age. Non-invasive measurements of movement patterns (motion analysis and force plate data) will be collected during bipedal gait.
The investigators do not yet know how a prosthetic socket with adjustable panels affects the performance of people with a lower limb amputation compared to a conventional prosthetic socket. The primary objective of this study is to compare an adjustable and conventional prosthetic socket and use this information to determine the optimal socket that would improve rehabilitation and function in people with lower limb amputation.
This study will use magnetic resonance imaging (MRI) and ultrasound images to study how muscles, tendons, and bones work together to cause motion. The procedure is one of several tools being developed to characterize normal and impaired musculoskeletal function, with the goal of developing improved methods of diagnosis and treatment of movement disorders. Healthy normal volunteers must be age 5 to unlimited, with or without joint impairment, may be eligible for this study. Volunteers with joint impairment may not have serious injury to the joint being studied, previous surgery on the joint being studied, or extreme pain at the joint being studied. MRI uses a strong magnet and radio waves to create images of the inside of the body. The subject lies on a long narrow couch inside a metal cylinder (the scanner) for up to 3 hours while the scanner gathers data. Earplugs are worn to muffle loud noises caused by electrical switching of radiofrequency circuits used in the scanning process. A special pad or tube may be placed over or around the region being scanned to improve the quality of the data. The subject will be asked to repeatedly move a specific joint, such as the knee, for brief periods, usually less than 5 minutes. The subject can communicate via intercom with the person performing the study at all times during the procedure, and may request to stop the study at any time. ...