View clinical trials related to Spinal Cord Injuries.
Filter by:Neuropathic pain is very common following a spinal cord injury, estimated to affect 43% of patients after 6 months. A proportion of these patients do not respond to treatment and there remains an unmet need to treat people with refractory spinal injury related neuropathic pain. While neuropathic pain medications, baclofen pumps and spinal cord stimulation work for some patients, a significant number are refractory to these therapies. Chronic pain can contribute to loss of functional ability, mental health problems, and a worse quality of life. Studies of functional neuroimaging have shown that the Anterior Cingulate Cortex (ACC) is a key structure in human pain perception, being part of a central pain neuromatrix or medial pain system, which includes thalamic nuclei and periaqueductal grey matter. A similar neuromatrix also including the insula is involved in the regulation of the autonomic nervous system, which explains the well-recognized interactions between pain and autonomic function. Moreover, it has been shown that the ACC is important for the emotional experience and thus the subjective intensity of pain, and it has a role in cognitive control processes for optimizing behaviour in the presence of pain. Bilateral anterior cingulotomy has been demonstrated to be a safe and effective therapeutic option for patients with otherwise intractable pain syndromes of different origins, e.g., refractory pain due to cancer or stroke. Although, cingulotomy has been shown to be a viable option in intractable pain of different origins, there remains a lack of evidence in patients with spinal cord injury and only scanty data are available in literature. Moreover, the effects of cingulotomy on mood, emotion processing, cognition and autonomic reactivity are not clear.
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 overall objective of this fully powered clinical trial is to investigate if using a solid backrest on a manual wheelchair (MWC) will improve postural alignment, function and wheelchair mobility, as compared with an upholstery backrest, and to explore the impact of overall back height, contour, and seat gap when using a solid backrest in individuals with spinal cord injury (SCI).
The project aims to test the feasibility of a new digital (mHealth) physical activity support program, delivered through an innovative mHealth platform (Curatio) for individuals living with spinal cord injury (SCI) who walk. The rationale for this project is to understand whether a mHealth intervention for increasing the amount and quality of physical activity is feasible for individuals with SCI who walk. The plan is to assess engagement, acceptability and feasibility in addition to primary outcomes related to physical activity behaviour. The investigators hypothesize that the intervention will be feasible and acceptable to deliver to individuals with SCI who walk. The investigators also hypothesize that the intervention will be engaging but recommendations will be made by participants following the study. Finally, it is hypothesized that compared with individuals in the wait-list control group, individuals in the intervention group will experience the following improvements related to exercise after 8-weeks: fulfillment of basic psychological needs, greater autonomous motivation, have enhanced social support, better action control, improved facilitators for behaviour change, more leisure-time physical activity, better quality participation, and enhanced employment.
To determine the Acute effects of continuous verses interval aerobic training on autonomic dysreflexia in Spinal Cord injury Patient. To Determine the Acute effects of these training on, Exercise Self efficacy and pain.
There is a need for a culturally adapted screening tool to aid health care professionals or clinicians screen for the presence of neuropathic pain associated with spinal cord injuries in Pashtoon population. . Since Paraplegic center Hayatabad Peshawar is a reputable institute for spinal cord injury patients' rehabilitation in Khyber pakhtun khwa where most of Pashto speaking SCI patients are rehabilitated. While working there as a physical therapist I, my other colleagues and patients felt a need for a screening tool for pain in Pashto language .So I decided to a conduct a tool validation study. This study will help the clinicians to assess their patient's pain type easily through the Pashto version of LANSS pain scale in Pashtoon population and hence will help in timely management of the pain.
This is a double-blind, randomized, placebo-controlled, multicenter clinical trial in which 18 patients affected with chronic traumatic incomplete cervical spinal cord injury will be randomized to either the active treatment (2 doses of intrathecal WJ-MSC 3 months apart) or to placebo (2 intrathecal infusions, 3 months apart). Thereafter, patients will be followed-up for 12 months for safety and efficacy assessment.
Chronic spinal cord injury (SCI) pain is complex and difficult to treat. For individuals with SCI, pain often begins early in the course of their SCI and continues longitudinally. Unfortunately, SCI-related pain is frequently not responsive to medical treatment and medical treatments that are available and commonly used, such as opioids, have negative side-effects and risk of addiction. Nonpharmacological (non-medication) interventions to reduce chronic pain show promise both for individuals with SCI as well as other chronic pain conditions. Research on psychological interventions for chronic pain over the past two decades has consistently found these interventions to be more effective than no treatment, standard care, pain education, or relaxation training alone. However, many of these interventions are designed and implemented in outpatient settings after chronic pain has already developed. The development of early, effective, and preventative interventions to reduce the development of chronic pain has the potential to vastly improve quality of life for individuals with SCI. Having demonstrated the feasibility and acceptance of this treatment in an earlier study, the purpose of this randomized clinical trial is to compare the treatment of Hypnosis Enhanced Cognitive (HYPCT) therapy to Pain Education (ED) for reducing acute and chronic pain for individuals with new spinal cord injuries. The main goals of the study are to: - Aim 1: Test the effectiveness of HYPCT during inpatient rehabilitation for SCI compared to a ED for reducing current pain intensity. - Aim 2: Determine the post-intervention impact of HYPCT sessions compared to ED on average pain intensity. Participants will be asked to: - Complete 4 surveys over seven months - Complete pre and post treatment pain assessments for each of 4 treatment/control sessions Participants will be assigned to one of two groups for treatment and receive either: - 4 Hypnotic Cognitive therapy sessions or - 4 Pain Education sessions
The purpose of this study is to stimulate the circuits in the spinal cord that are directly responsible for hemodynamic control to restore hemodynamic stability in participants with chronic cervical or high-thoracic spinal cord injury. The ultimate objective of this study is to provide preliminary safety and efficacy measures on the ability of the hemodynamic Targeted Epidural Spinal Stimulation (TESS) to ensure the long-term management of hemodynamic instability and reduce the incidence and severity of orthostatic hypotension and autonomic dysreflexia episodes in individuals with chronic cervical or high-thoracic spinal cord injury. In addition, the long-term safety and efficacy of TESS on cardiovascular health, respiratory function, and quality of life in participants with chronic spinal cord injury will be evaluated.
The purpose of this study is to find out if taking the drug Buspar will increase breathing capacity in individuals with spinal cord injuries.