View clinical trials related to Spinal Cord Injuries.
Filter by:The primary goal of this study is to conduct a multi-site RCT to evaluate the replicability and efficacy of the ReInventing Yourself after SCI intervention in improving health and function outcomes for persons with spinal cord injury (SCI). A total of 252 participants will be randomized to one of three research arms: 1) Group treatment plus workbook (Group), 2) individual self-study through YouTube video plus workbook (Indiv), and 3) no treatment, no workbook (Control). Participants randomized to the Group arm will attend 6 virtual weekly group sessions led by a pair of group facilitators and will utilize the study workbook. Indiv arm participants will receive the workbook and will be instructed to independently access YouTube videos of the group session content. Control arm participants will not receive any intervention during the 6 week period. Participants in all three arms will be assessed at identical time points throughout the study: baseline, 6 weeks, 14 weeks, 22 weeks, 30 weeks, and 46 weeks. It is hypothesized that individuals in the Group intervention arm will show greater improvements after the six week intervention in SCI-specific and general self-efficacy, emotional well-being, increased societal participation, less depressive and anxiety symptomatology, and improved resilience than participants in the Indiv and Control arms.
Stimulation of the spinal cord may induce the growth and reorganization of neural pathways leading to the re-animation of paralyzed limbs. Growing evidence indicates that electrical spinal cord stimulation improves motor functions immediately via modulating the excitability of spinal circuitry in patients with spinal cord injury. Recently, a novel, non-invasive, well-tolerated and painless transcutaneous electrical stimulation strategy was demonstrated to be effective for improving lower limb motor function in healthy individuals and in patients with spinal cord injury. The investigators hypothesize that transcutaneous cervical electrical stimulation can enhance conscious motor control and functions of hand and arm via neuromodulation of spinal network. This study is a prospective efficacy trial of transcutaneous cervical electrical stimulation for improving upper limb function in patients with traumatic or degenerative cervical spinal cord injury. Transcutaneous electrical spinal stimulation device is not regulated by the United States Food and Drug Administration for treatment of spinal cord injury. The interventions include either transcutaneous cervical spinal electrical stimulation combined with physical therapy or physical therapy only. The order of the interventions will be randomized for each subject in a delayed cross-over design. Total duration of the study is 6 months, including 4 weeks baseline measurements, 8 weeks intervention and 12 weeks follow-up. Both immediate and lasting improvements in hand motor and sensory function via transcutaneous cervical spinal stimulation will be evaluated.
Rotator cuff disease (i.e., rotator cuff tendinopathy or tear) is a common cause of shoulder pain in persons with chronic spinal cord injury (SCI). It usually resolves with non-operative treatments such as pharmacological agents and physical therapy; however, when this fails, rotator cuff surgery may be the only option. Autologous adipose tissue injection has recently emerged as a promising new treatment for joint pain and soft tissue injury. Adipose can be used to provide cushioning and filling of structural defects and has been shown to have an abundance of bioactive elements and regenerative perivascular cells (pericytes). The purpose of this study is to explore the safety and efficacy of autologous, micro-fragmented adipose tissue (Lipogems®) injection under ultrasound guidance for chronic shoulder pain in persons with SCI.
To establish the effectiveness of an internet-delivered cognitive behavioural therapy pain management programme (CBT-PMP) on people with spinal cord injury pain compared with usual care.
The goal of our study is to evaluate the use of a self-management application ("app") that the investigators have developed to help facilitate self-management among individuals with SCI who live in the community. The main purpose is to create and fulfill individual self-management goals. Other purposes include improving self-management and health conditions related to SCI. During the initial phase, participants (SCI clinicians and patients with SCI) reported positive usage of the self-management app and all agreed it would benefit people with SCI. With the widespread use of portable electronic devices, an opportunity exists to help patients and informal caregivers on the journey from rehabilitation to integration back into the community. The investigators will use a randomized controlled trial (randomly putting participants into two groups), including both surveys and interviews. The study will involve the use of the app that focuses on the self-management of SCI, along with five to six in-person or telephone meetings over a three-month period. Our proposal is original in that it will be one of the few randomized control trials for e-health interventions for self-care management for those with SCI. The overall goals of the study is to develop an affordable self-management app that can be used to encourage self-management in people living with SCI. This app would be used along with other health problem specific apps that are more detailed and expensive, while helping participants to manage their long-term health problems related to their SCI in an easily usable and affordable form.
This non-randomized clinical study will compare pressure injuries and the change in pressure injuries for subjects who are placed on the Freedom Bed compared to those placed on a standard Group II Low Air Loss/Alternating Pressure Mattress in the Ventilator Unit at Northeast Center for Rehabilitation and Brain Injury. Additionally, the incidence of pneumonia, urinary tract infections, circulatory performance, sleep deprivation and caregiver self-perception on performance will be monitored and documented.
Rationale: After having a spinal cord injury (SCI), people develop changes in their body composition that influences their long-term health. Individuals with paralysis after SCI will have large declines in their bone density ant increases in fat mass which increases their risk of fracture and heart disease. Therapies to prevent SCI-related changes in body composition and their health effects are needed. Drugs known as "statins" used often to reduce high cholesterol, may help to reduce bone loss and inflammation. Hypothesis: Among adults with SCI for a long time, treatment with a drug named Rosuvastatin or a sugar pill, with supplements (coenzyme Q10, calcium and vitamin D), for twelve months can decrease their endocrine metabolic disease risk by increasing bone density and reducing inflammation. Study Design: A clinical trial will be conducted in Toronto, Ontario and Miami, Florida. Subjects will get statin therapy or placebo (sugar pill) by chance. Study subjects and research staff will not know whether they are taking the study drug or a sugar pill until after the study Subjects: Fifty-four adults (age 18-60 years) with a long-term SCI and no movement below their level of injury. Treatment: Subjects will be prescribed Rosuvastatin 10 mg daily or a sugar pill. In addition, all subjects will receive 100 mg of Co-Q10 daily, calcium carbonate 1250 mg and, vitamin D 2,000 IU once a day. Data Collected: Subjects' bone density will be collected at the start and end of the study. Change in bone density between the two groups will be compared to see if one is better. Blood samples will be collected quarterly to make sure subjects are safe and do not develop problems with their liver or muscles and to measure the effects of the study drugs on inflammation throughout the body. Clinical Implications: Statins may be safe and effective therapy for adults living with SCI who are at increased risk of endocrine metabolic disease as they age.
Observational comparison on Incidence of Pressure Injury between the Freedom Bed Automated Continuous lateral Rotation Therapy System and Manual Caregiver Re-positioning every 2 hours on a standard Hospital Bed.
Deep brain stimulation (DBS) holds promise as a new option for patients suffering from treatment-resistant chronic pain, but current technology is unable to reliably achieve long-term pain symptom relief. A "one-size-fits-all" approach of continuous, 24/7 brain stimulation has helped patients with some movement disorders, but the key to reducing pain may be the activation of stimulation only when needed, as this may help keep the brain from adapting to stimulation effects. By expanding the technological capabilities of an investigative brain stimulation device, the investigators will enable the delivery of stimulation only when pain signals in the brain are high, and then test whether this more personalized stimulation leads to reliable symptom relief for chronic pain patients over extended periods of time.
This study is a cross-sectional study investigating the impact of assistive forces applied by the body-weight support system "the FLOAT" on the study participants. The study is conducted at the University Hospital Balgrist in Zurich over a period of around 3 years. During this time measurements on approximately 140 able bodied subjects and 60 patients with an incomplete spinal cord injury will take place. The study participants are invited for a single visit of around 140 min duration to the University Hospital Balgrist. During this visit the study participants will repeatedly perform various activities of daily living (free walking, standing up and sitting down, stair climbing and balancing) with and without assistive forces from the body-weight support system. While performing the tasks, the study participants' motions and muscle activities will be measured to evaluate the naturalness of their movements. In addition, the collected data permits us to compare different movement patterns and make conclusions about effective and optimal movement support. Obtaining this knowledge will help us to shape the therapy of these activities to be tailored to the patients and to train these movements with the help of the FLOAT under optimal conditions.