View clinical trials related to Spinal Cord Injuries.
Filter by:Breathing brief, moderate bouts of low oxygen trigger (low oxygen therapy, LOT) spinal plasticity (the ability of the nervous system to strengthen neural pathways based on new experiences), and improve walking after spinal cord injury (SCI). The greatest improvements in walking ability occur when LOT is administered prior to skill-based walking practice (WALK). However, the enduring benefits of LOT on walking recovery may be undermined by the accumulation of LOT-induced increase in extracellular adenosine. The goal of the study is to understand the extent to which istradefylline (adenosine 2a receptor antagonist) may limit the competing mechanisms of adenosine on LOT-induced walking recovery following SCI.
Women with spinal cord injury frequently experience sexual dysfunction such as disturbances during arousal and an increased time to orgasm. However, little evidence has been found on its therapeutic approach and low adherence. To verify the effectiveness of two interventions: the application of genital vibration and transcutaneous stimulation of the tibial nerve. This is a randomized clinical trial. 54 women will be recruited who suffer from sexual dysfunction.
The availability of symptom monitoring and self-management (SMSM) interventions is especially important for civilians and military populations with spinal cord injuries (SCI). High rates of depressive disorders (20-40%) and anxiety disorders (20-25%) have been found in both civilian and military populations and are significant contributors to both quality of life and well-being after SCI. Previous self-management interventions targeting physical activity and self-reliance in individuals with SCI have demonstrated significant health and lifestyle benefits. However, it has been shown that the injured individual's psychological outlook and mood can either enable or hinder self-management efforts and that currently available SCI-specific self-management programs may be inadequate. Developing interventions to reduce mental health symptoms following SCI is therefore critical to improve the lives of individuals, alleviate resource strain on military and civilian health care systems, and potentially reduce the rate of mortality by suicide in Veterans and civilians living with SCI. The current study will build on prior work developing an intervention platform to assess the effectiveness of this eHealth SMSM system and will test the feasibility and effectiveness of the intervention platform.
Recovery programs of the upper extremity can be extensive, for many adults with neurological disorders/injuries, including maintenance exercises that need to be done continually to maintain function and to prevent secondary disabilities. However increasing demands and shrinking funds are making it harder to meet the rehabilitation needs of Manitobans and Canadians with chronic disabilities. There is a need for innovation to improve the accessibility and engagement of rehabilitation programs for adults with upper extremity (UE) motor impairments due to spinal cord and acquired brain injuries. The purpose of this research proposal is the further development and validation of a multipurpose plug-n-play rehab gaming system for use in community centers, in particular, at First Step Wellness center. It's no sleight of hand our gaming system provides a basis for repetitive, task-specific therapy focused on manual dexterity; object handling and manipulation for adults with spinal cord and acquired brain injuries. It was designed to transition engaging, highly effective and personalized rehabilitation programs to function in community centers , and with automated monitoring (tele monitoring), which to manage and progress outreach programs. The gaming system consist of hardware and software components the hardware includes a low-cost, portable smart exercise manipulanduu device (EMD), with assistive technology. The EMD is designed as a HID compliant plug-n-play computer input device that emulates a standard optical computer mouse. Therefore these devices can be used with most any common/ modern computer video game that function by mouse control. Inclusion of "fun" gaming elements is intended to provide extra motivation for the patients in the form of a challenge and a more enjoyable means of encouraging them to follow tedious, repetitive movements that are often a part of the rehabilitation process. Therapeutic value can be derived from both the types of object manipulation tasks (use of the EMD), as well as the choice of computer games. Many inexpensive and readily available common computer games exist that require different levels of movement amplitude, speeds, accuracy repetition, cognitive enhancements, and offer sufficient diversity to appeal to a broad range of individual preferences (both children and adults). A purpose-built Rehabilitation game (RTP game) has also been developed and validated. It was designed to gather event data and synchronize it with patient movements while they practice a range of game-based exercises with the hand and arm. This will provide; a) automated monitoring, assessment embedded into treatment, b) Immediate feedback to client, and c) electronic outcome measures to quantify and track client's performance over time Clinical support of outreach programs with protocols that can be easily updated will help create better-targeted and personalized solutions for patients and achieve the desired rehabilitation outcomes. The innovation of this approach comes from the implementation of well-designed, yet inexpensive and easy-to-use hardware and computer software (i.e. in essence a computer mouse and a computer game). It can be judged in terms of the fact that the proposed system would provide highly effective exercise programs with embedded assessment and timely feedback/support for use in community centers and ultimately the home (tele rehabilitation). This research will contribute to the development and validation of promising, new technologies that have he capacity to become widely adopted as a viable, affordable eHealth tool that will support the quality of life and participation of Canadians living with chronic disabilities.
The purpose of this study is to evaluate the safety and effectiveness of subcutaneous injection of TNFα monoclonal antibody cells for the treatment of traumatic acute spinal cord injury. Spinal cord injury can be divided into three phases, which are acute (within 2 weeks), sub-acute (2 weeks to 6 months), and chronic (over 6 months). The pathological process of spinal cord injury include primary injury (initial traumatic insult) and a progressive secondary injury cascade characterized by ischemia, proapoptotic signaling, peripheral inflammatory cell infiltration and the release of proinflammatory cytokines. Secondary injury plays a key role in the loss of spinal cord function after trauma. So early treatment to prevent the secondary injury is the key to improve prognosis. TNFα monoclonal antibody is a TNF-α inhibitor that could control inflammatory response, and now widely used in the treatment of Ankylosing spondylitis, Rheumatoid arthritis and other autoimmune diseases. In this study, the investigators will treat patients with acute spinal cord injury with TNFα monoclonal antibody and compare with the control group.
This research study is being conducted to help explore the effects of non-invasive (non-surgical) spinal cord stimulation via sticky electrodes over the skin (transcutaneous spinal cord stimulation; TCSCS) on bowel, bladder and sexual function following spinal cord injury. Our primary aim is to determine the specific location and timing of TCSCS at various spinal cord levels in order to target bladder and bowel control (Study 1 and 2), and to assess the safety and effectiveness of TCSCS during bladder and bowel function assessments (Study 2 only). Participants may choose to participate in either Study 1 or 2.
To construct and validate a software to recognize scar for patients with chronic SCI based on multimodal MRI.
This study is to understand how the combination of activity-based recovery training and targeted spinal cord transcutaneous stimulation (scTS) can improve participants' ability to use their hand, arms, and core.
The purpose of this study is to investigate whether the timing of delivery of functional electrical stimulation therapy in combination with task-specific training (FEST+TST) following spinal cord injury (SCI) influences functional and neurological recovery.
This study argues that providing evidence-based occupational therapy patient education is vital in order to optimize rehabilitation outcomes. The planned trial aims to evaluate the SADL-eM intervention for people with SCI compared with standard treatment.