View clinical trials related to Spinal Injuries.
Filter by:The purpose of this study is to evaluate if intubation with video laryngoscopy (VL) will result in less head motion and therefore less cervical motion when compared with direct laryngoscopy (DL). The aim of the study is to determine the amount of head motion (extension, flexion and rotation) when using Storz C-Mac® video laryngoscopes and direct laryngoscopes. Secondarily, the study will also measure the number of attempts to properly intubate and the time required for intubation with either technique.
Patients who present with an unstable cervical spine following an accident need a general anesthesia for the necessary surgery. Commonly, the management of the tracheal intubation is performed by a fiberoptic technique. However, changes in equipment availability and quality may challenge the fiberoptic intubation technique. The investigators wish to compare the tracheal intubations performed with the Airtraq in comparison with the fiberscopic technique.
This study is designed to evaluate the efficacy of topical tranexamic acid to reduce perioperative blood loss, reduction in postoperative drain output and allogenic transfusion requirements. The proposed study will be a prospective, randomized, double-blind (subject, surgeons, investigators, research coordinators) placebo-controlled study. Patients following high energy trauma who have sustained thoracic or lumbar spine fractures, dislocations or ligamentous injury with resultant instability requiring posterior spinal fusion will be enrolled for this study. Furthermore, patients undergoing elective complex deformity surgery will also be enrolled. Both populations of patients will be randomized into two groups. Group I will receive standard of care operative fixation with topical tranexamic acid intervention (test); Group II will receive standard of care operative fixation with normal saline (placebo) intervention. This study will have a 2-year follow-up and will consist of three periods: screening/enrollment phase up to 21 days from the day of injury to the day of randomization and operative intervention, an inpatient data collection period for 4 days postoperative, and then a follow-up period for 2-years postoperative (visits occurring at 2 week, 16 week, 1 year, and 2 year) time points.
The purpose of this study is to evaluate the safety of cross sequential escalating doses of AST-OPC1 administered among 5 cohorts at a single time-point between 21 and 42 days post injury, inclusively, to subjects with subacute cervical spinal cord injuries (SCI).
The research will examine the effects of enhanced peer mentor interactions on facilitating a successful transition to community living following traumatic spinal cord injury (SCI). Participants in the research will be assigned to either (1) the control group that will receive traditional peer mentor types of interactions or (2) to the intervention group that will receive an enhanced peer mentor program called the One-on-One Initiative. Assignment to one of these two groups will occur randomly on admission to Shepherd Center; the only stratifying criteria is injury level - C6 and above vs. C7 and below.
Understanding the onset and progression of spinal cord disorders is an important aim in clinical neurology. An early diagnosis with consequent therapy might prevent the progression of disability. Therefore, we aim to determine structural and dynamic changes in the microstructure of the spinal cord and CSF, and to explore the relationships between the MRI parameters, clinical disability, and electrophysiology. In some patients that undergo decompressive surgery CSF pressure will be measured invasive perioperative for 24h to find out if functional limitations and structural changes correlate with the spinal pressure and the spinal perfusion when the spinal cord is damaged.
This study will evaluate the safety and efficacy of human central nervous system stem cell transplantation into patients with traumatic injury in the cervical region of the spinal cord.
We aim to investigate the effect of motor skill training of the upper and lower limbs on the function and structure of the CNS as measured by neuroimaging parameters sensitive to changes in tissue volume and density and the properties of myelin.
This study will look at the use of a telehealth version of a self management program in individuals with both new onset and chronic traumatic spinal cord injuries. The program is called Health Mechanics. It is meant to enhance self management skills related to neurogenic bladder and bowel management to prevent associated problems and improve Quality of Life (QOL). This program is based on the needs and strengths of individuals with SCI. It focuses on enhancing skills, encouraging positive health behaviors, empowering people within their own environments, and recognizing that people differ in their resources and abilities. The skills that are part of the intervention are: attitude, self-monitoring, problem-solving, communication, organization and stress management. This study will address those skills in the context of bladder and bowel health, with expectations that these skills to be useful in other areas of life as well. The investigators hypothesize that individuals in the Health Mechanics intervention group will: - show greater improvements in problem solving skills, healthy attitudes about disability and knowledge of SCI management skills than will the control group - have greater adherence to recommended bladder and bowel management behaviors than the control group - have fewer bladder and bowel complications than the control group - have higher levels of QOL than the control group In other words, this study will investigate the effectiveness of a telehealth version of Health Mechanics to enhance self-management skills related to neurogenic bladder and bowel management in an attempt to prevent associated complications and improve QOL.
The hypothesis of this study is to find evidence if there is an influence of spine surgery on the serum levels of two proteins secreted from neuronal cells.