TSCS for Acute SCI
Acute Spinal Cord InjuryBlood Pressure1 moreThis project will focus on a novel approach to stabilizing blood pressure (BP) during inpatient rehabilitation after acute SCI. After SCI, people have unstable blood pressure, ranging from too low (orthostatic hypotension) to too high (autonomic dysreflexia). Unstable BP often interferes with performing effective physical rehabilitation after SCI. A critical need exists for the identification of safe, practical and effective treatment options that stabilize BP after traumatic SCI. Transcutaneous Spinal Cord Stimulation (TSCS) has several advantages over pharmacological approaches: (1) does not exacerbate polypharmacy, (2) can be activated/deactivated rapidly, and (3) can be applied in synergy with physical exercise. The study team is asking the key question: "What if applying TSCS earlier after injury could prevent the development of BP instability?" To facilitate adoption of TSCS for widespread clinical use, the study team plans to map and develop a parameter configuration that will result in an easy to follow algorithm to maximize individual benefits, while minimizing the burden on healthcare professionals. This project will provide the foundational evidence to support the feasible and safe application of TSCS in the newly injured population, thereby overcoming barriers to engagement in prescribed inpatient rehabilitation regimens that are imposed by BP instability.
Wrist Extensor MEP Up-conditioning for Individuals With Incomplete Spinal Cord Injury
Spinal Cord InjuriesQuadriplegiaThe purpose of this study is to examine the relationship between common clinical assessments and measurements of the function of brain-spinal cord-muscle connections, and to examine the effects of training a brain-spinal cord-muscle response in individuals with incomplete spinal cord injury. A transcranial magnetic stimulator (TMS) is used for examining brain-to-muscle pathways. This stimulator produces a magnetic field for a very short period of time and indirectly stimulates brain cells with little or no discomfort. The target muscle is the wrist extensor (extensor carpi radialis) muscle that bends the wrist back. It is hypothesized that training the wrist extensor muscle response to transcranial magnetic stimulation will increase the strength of the brain-to-muscle pathway, which will improve the ability to move the arm. It is hoped that the results of this training study will help in developing therapy strategies for individuals, promoting better understanding of clinical assessments, and understanding treatments that aim to improve function recovery in people with spinal cord injury (SCI). This study requires 30 visits, and each visit will last approximately 1.5 hours.
Spinal COrd NeuromodulaTor by SpIneX and ScoNE to Treat NeurogeniC BladdEr - SCONE "CONTINENCE"...
Neurogenic BladderSpinal Cord Injuries (Complete and Incomplete)2 moreThe purpose of this study is to evaluate the effectiveness and safety of SCONE neuromodulation therapy after 12 weeks of therapy in comparison to inactive sham control in improving symptoms of Neurogenic Lower Urinary Tract Dysfunction
The Relationship Between Irisin and Bone Health in Individuals With Spinal Cord Injury
Spinal Cord InjuryThis study will examine the relationship between circulating irisin and bone health individuals with spinal cord injury. Additionally, this study seeks to examine the influence of muscle fiber type on circulating irisin and identify an exercise-based means to increase irisin concentrations.
Grand Valley State University (GVSU) Skills on Wheels
Spina BifidaCerebral Palsy4 moreManual wheelchairs (MWCs) are widely used by children with physical disabilities, yet many of these children are unable to use their wheelchair independently. Instead, they depend on others to push them. This dependency results in limited opportunities to decide what they want to do and where they want to go, leading to learned helplessness, social isolation, decreased participation, and restricted involvement in physical activities. Furthermore, unsafe MWC use increases the risk of injury, as highlighted by the 44,300 children treated each year in emergency departments for MWC-related injuries. While independent MWC mobility can positively influence quality of life, MWC skills training must also be provided to promote safe, independent MWC use. The effectiveness of MWC training programs for adults is well established, yet the current standard-of-care does not include MWC skills training for children and research regarding the efficacy of pediatric MWC skills training programs is limited. Skills on Wheels seeks to address these gaps and provide pilot data for a future large-scale, multi-site research project involving a randomized controlled trial. Aim 1 is to explore the influence of Skills on Wheels on children's MWC skills and confidence in their MWC use. Aim 2 is to investigate the influence of Skills on Wheels on children's psychosocial skills, social participation, and adaptive behavior.
Repetitive Transcranial Magnetic Stimulation to Promote Regeneration in Persons With SCI
Spinal Cord InjuriesThis is a research study to evaluate the safety, efficacy and feasibility of high-frequency repetitive transcranial magnetic stimulation (HF-rTMS) in patients with subacute spinal cord injury.
Spinal Cord Stimulation for Functional Recovery in Humans With Tetraplegia
Spinal Cord InjuryIn support of the long-term goal of developing new strategies to increase limb function after SCI, the objectives of this proposal are to: 1) Examine the behavioral and physiological effects of TESS on upper-limb muscles after cervical SCI; and 2) Maximize the recovery of reaching and grasping potential by using tailored TESS in a task-specific manner with motor training. Veterans with cervical spinal injuries and healthy volunteers will be recruited for this study.
Transcutaneous Stimulation in Spinal Cord Injury
Spinal Cord InjuryCardiovascular disease has become the leading cause of death in the spinal cord injury population. Increased reliance on the renin-angiotensin-aldosterone system (RAAS) is believed to decrease falls in blood pressure when moving from a laying down position to upright; however, findings in the general population link the RAAS with remodeling and restructuring of the arterial walls. Therefore, intervention to stabilize and normalize blood pressure should be a priority in individuals with spinal cord injury who have low blood pressure. Advances in stimulation on the skin of the spinal cord offer an approach to restore cardiovascular control and improve blood pressure regulation; however, electrode placement and stimulation parameters needed to increase blood pressure are not well understood. Therefore, the aim of the study is to identify placement of electrodes on the skin, and frequency and amplitude of the stimulation to regulate blood pressure.
SPARC Bladder Mapping and Training Study
Spinal Cord InjuriesThe investigators propose to determine the electrode configurations that promote functional gains in the storage and voiding phases of lower urinary tract function as a result of activation of spinal circuits with spinal cord epidural stimulation in humans with spinal cord injury. The innovative approach and novel application of the Medtronic Specify 5-6-5 (16-electrode array) epidural device will allow the investigators to determine, with this early feasibility study, specific parameters of spinal cord epidural stimulation and approaches for bladder training needed for lower urinary tract function which will lay the groundwork for expedient translation of this promising technology to larger numbers of individuals with spinal cord injury who currently have limited treatment options. The current proposed study will increase the understanding of human lumbosacral spinal networks and guide the use of innovative therapeutic strategies that would be immediately available to not only improve the motor output during standing and walking but also ameliorate bladder dysfunction and thus improve quality of life in individuals after spinal cord injury.
Multi-functional Neuroprosthetic System for Restoration of Motor Function in Spinal Cord Injury...
Spinal Cord InjuriesSpinal Cord Injury at C5-C7 Level3 moreThis study is to evaluate the use of a fully implanted device for providing hand function, reach, and trunk function to individuals with cervical spinal cord injury. Funding Sources: FDA OOPD NIH NINDS