View clinical trials related to Spinal Cord Injuries.
Filter by:Over the past ten years, the Cardiovascular Research Laboratory at Spaulding has refined a unique form of exercise for those with spinal cord injuries (SCI). Functional Electrical Stimulation Row Training (FESRT) couples volitional arm and electrically controlled leg exercise, resulting in the benefits of large muscle mass exercise. However, despite the potential for enhancing aerobic capacity by training the denervated leg skeletal muscle via hybrid FES exercise, the inability to increase ventilation beyond limits set by high level SCI restricts aerobic capacity. This research study will investigate two potential methods of improving ventilation in those with high-level SCI through a double-blind randomized trial. One method is non-invasive ventilation (NIV), which is an external breathing support machine. The second method is the use of Buspar, a drug, which has been used to treat respiratory dysfunction after SCI in rats and some human case reports. In this study, participants will engage in a 6-month FES row training program while receiving either NIV or shamNIV and Buspar or placebo, and under study tests to evaluate cardiopulmonary health and fitness.
The investigator is evaluating data stored on the Collaborative Community Clinic data repository (IRB #201811032). Researchers seek to evaluate the effectiveness of the Collaborative Community Clinic (CCC), an occupational therapy student experiential learning clinic for uninsured or under-insured people with spinal cord injury and disease (SCI/D), using participants' initial and follow-up assessment batteries.
The central objective of this study is to validate new algorithms that coordinate between functional electrical stimulation (FES) and the exoskeleton during sitting-to-standing, walking, and standing-to-sitting movements. The secondary objective is to optimize the algorithms as well as assess their ability to reduce FES-induced muscle fatigue by using ultrasound imaging as a sensing modality. This study will include persons with no disabilities and persons with Spinal Cord Injury (SCI). A research set-up comprising of a lower-limb exoskeleton and FES system will be used to achieve sitting-to-standing, walking, and standing-to-sitting movements. Ultrasound Imaging probes may be used to record muscle activity of the stimulated muscles. The signals derived from ultrasound will be used to optimize FES in order to reduce muscle fatigue as well as assess muscle fatigue.
This study investigates whether spinal cord injury and stroke survivors (n=10) are able to operate a brain/neural hand exoskeleton (B/NHE) based on electroencephalography (EEG) and electrooculography (EOG) for restoration of bimanual activities of daily living (ADLs). To assess bimanual ADLs, the Berlin Bimanual Task Assessment (BEBITA) will be applied. Improvements in BEBITA will be evaluated with and without B/NHE use.
Document and evaluate the impact of societal restrictions due to the pandemic on SCI- and ABI-related disability and functional impairments, and the resultant effects on psychological wellbeing, physical wellbeing and quality of life for those with SCI/ABI.
Persons with spinal cord injury (PwSCI) are at a greater risk for major health conditions and poorer health outcomes than persons without spinal cord injury (SCI). They often experience a great deal of health needs both on a physiological level as well as a psychosocial level. PwSCI frequently require supports and services to be able to live independently within the community. These services and supports are sometimes difficult to access within the community when the country is operating under regular capacity, in current times with the global COVID-19 pandemic, the challenges for obtaining and accessing supports and services will become much greater. The proposed project aims to identify the specific needs during this time of crisis and to provide referrals and resources to ameliorate those needs by surveying PwSCI in the St. Louis region. The project also hopes to determine if these persons experience isolation during shelter at home orders. PwSCI, who the investigators serve or have served in the past, will be contacted via phone or e-mail once a month for six months and asked to complete a questionnaire that will allow the investigators to track the participant's needs during the COVID-19 pandemic.
The main objective of this study is to validate the effectivity of a simple home-based training for cycling with functional electrical stimulation (FES). The training is designed to progressively increase strength and endurance of the paralysed muscles of a person with complete spinal cord injury. After a limited period of only several months, performance will be assessed during FES-assisted cycling on a recumbent tricycle over flat ground. The outcomes of this study should provide evidence for the effectivity of FES-cycling as potential rehabilitation method.
During the current COVID-19 pandemic many spinal cord injury (SCI) rehabilitation services are limited to emergency management, leaving those living in the community without access to services. Unfortunately, this can lead to negative effects including increase in emotional distress, feelings of isolation, and decreased activity engagement. Due to their limited mobility and greater likelihood of respiratory illness it is imperative to provide alternative forms of activity engagement to reduce their risk for secondary complications. Physical activity has been demonstrate to have numerous benefits for individuals with SCI ranging from enhanced health through prevention of secondary complications to improved subjective well-being. The current study proposes to provide an online physical activity program through web-based videoconferencing to person with SCI to improve overall wellbeing and activity engagement. The program will consist of six weeks of twice-weekly, 45-minute sessions in which an experienced fitness instructor (i.e., wheelchair aerobics) with lived experience and a Kinesiology graduate student will lead online sessions. The sessions will be comprised of a 10-minute warm-up phase, a 25-minute aerobic phase and a 10-minute cool-down phase that will incorporate upper-extremity flexibility exercises and guided meditation. In all cases, remote (i.e., in-home) participant monitoring of physiological signals will be conducted by the instructor to ensure safety of participants. Once the program has been completed, participants will be asked to complete self-report questionnaires related to acceptability, feasibility, and limited effectiveness. Participants will also be asked to complete a brief semi-structured interview examining barriers and facilitators of the program. Participant feedback from the interviews will be used to further develop of the program to meet the needs of the population and develop sustainable approaches for access to care in the community setting through collaborations with community partners (SCI Ontario, National SCI Alliance, Ontario Neurotrauma Foundation). Ultimately, the proposed project aims to improve overall wellbeing and access to health care service for those with SCI during the COVID-19 quarantine.
Patients with spinal cord injury have a high prevalence of osteoporosis due to chronic skeletal unloading. Recently, various treatment drugs for osteoporosis have been developed. In particular, romosozumab, a sclerostin inhibitor, has been reported to have a high therapeutic effect as an inhibitor of bone resorption while promoting bone formation. However, there are a few research concerning sclerostin of spinal cord injuries patients. Therefore we want to analyze the change of sclerostin as well as factors indicating bone formation and absorption marker in spinal cord injury patient.
Current methods to assess superficial size and area of pressure ulcers are either time-consuming (using Transparency Tracings techniques), costly (computers, softwares), or necessitating to touch the patient's skin (using commun rulers). A free smartphone application (for IOS or Android) has recently been developed to measures skin lesions. It is called imitoMeasure. It does not require any contact with the patient. A photograph is taken with the smartphone, the limits of the lesion is then drawn with the health carers' finger on the phone's screen. The application computes the length, width and surface of the ulcer. This technique has not yet been validated, although it has been used to measure various types of skin lesions. The objective of this study is to validate this measurement technique on a sample of pressure ulcer in a population of patients with spinal cord injury (SCI). Reliability is assessed by comparison to the currently most frequently used techniques (Transparency Tracings and ruler-based), and fiability is assessed by intra-rater and inter-rater correlations. imitoMeasure is a new smartphone application to measure wounds size. The present study assesses validity of the measure against common measures (ruler-based and transparency tracings), and the inter- and intra-rater reliability.