View clinical trials related to Spinal Cord Injury, Acute.
Filter by:This is a prospective, single-blinded, single-center, randomized, comparative, interventional clinical study of systemic mononuclear multiple allogenic cord blood cells administration safety and efficiency in patients having acute severe contusion spinal cord injury (ASIA A/B), phase I/II
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
This study intends to evaluate the safety and exploratory efficacy of transplantation therapy using neural precursor cells (PSA-NCAM(+) NPC) derived from the human embryonic stem cell line for the treatment of paralysis and other related symptoms from sub-acute spinal cord injury.
Spinal cord injury (SCI) is a devastating, life-altering injury; requiring tremendous changes in an individual's lifestyle. Cycling, provides an ideal way for individuals with SCI to exercise and address the long-term consequences of SCI by targeting the lower extremity muscles. Cycling with the addition of functional electrical stimulation (FES) allows persons with paralysis to exercise their paretic or paralysed leg muscles. The Queen Elizabeth National Spinal Injury Unit (QENSIU) in Glasgow offers FES cycling for people with spinal cord injuries, which combines functional electrical stimulation (FES) with a motorised ergometer that allows repetitive cycling activity. It stimulates muscles with electrodes attached to the skin, producing muscle contractions and patterned activity. So far no previous randomised control trials on FES cycling in the acute SCI population have reported changes in ability to undertake activities of daily living or the trunk balance.
Most patients with spinal cord injury (SCI) develop neurogenic lower urinary tract dysfunction (NLUTD), one of the most devastating sequelae of SCI which ultimately can lead to renal failure. We urgently need an intervention that prevents NLUTD before irreversible damage occurs. Neuromodulation procedures are a promising avenue so that we investigate the effect of transcutaneous tibial nerve stimulation (TTNS) in patients with acute SCI. This nationwide randomized, sham-controlled, double-blind multicentre clinical trial includes all SCI centres in Switzerland (Basel, Nottwil, Sion, Zürich). Patients are randomly assigned to VERUM TTNS (active stimulation, n=57) and SHAM stimulation (n=57) groups in a 1:1 allocation using computer-generated permuted block randomisation lists stratified on study centre and lower extremity motor score. Daily 30-minute sessions are performed five times a week during an intervention period of 6-9 weeks. The primary outcome of this study is the success of TTNS to prevent neurogenic DO jeopardizing the upper urinary tract, assessed by urodynamics at 1 year after SCI or any earlier time point if DO treatment is necessary (study end). Secondary outcome measures are bladder diary parameters, clinical symptom scores assessed by standardized and validated questionnaires. Furthermore, neurophysiological and neuroimaging outcome measures are assessed as well as, biochemical and molecular changes. Tertiary outcome measure is the safety of TTNS. Before the actual start of the TASCI RCT, start-up activities will include a piloting phase on groups of healthy volunteers and patients. The goal during this phase is to evaluate the feasibility of the experimental setup, in particular for the TTNS and SHAM intervention, but also to test the setup of the different pre and post assessments (e.g. neurophysiology and neuroimaging tests). Groups of up to 15 participants each will be enrolled in a few consecutive pilot studies allowing for fine tuning and small adaptations in between, if appropriate.
The purpose of the NISCI trial is to test if an antibody therapy can improve movement and quality of life of tetraplegic patients. A previous trial showed this treatment is safe and well accepted. This is a placebo controlled, randomized, double blind, multicenter, multinational study to assess the safety, tolerability, feasibility and preliminary efficacy of early (within 4-28 days post injury) initiation of treatment with repeated bolus injections of NG-101 in cervical acute SCI patients. The study has 3 phases: screening/baseline Phase, treatment phase, and a follow-up phase. The study design will allow simultaneous enrolment of patients with complete or incomplete SCI. Enrolment and stratification of the patients is based and individualized prediction of upper limb outcomes. For further information please visit NISCI website: https://nisci-2020.eu
The aim of the master's thesis is to evaluate the clinic-internal strengthening concept of the Swiss Paraplegic Centre (SPZ). The SPZ is a rehabilitation clinic for spinal cord injured people. The strengthening concept has been routinely used since 2015. By default, the patients complete - depending on which training phase they are in - three to four strength training sessions per week. As part of the master's thesis, the development of maximum strength of patients with spinal cord injury (SCI) in primary rehabilitation will be studied. It is explicitly taken care of that the patients comply with the training requirements. Furthermore, factors which prevent a consistent buildup of strength - such as medical complications (pressure sores, pneumonia, urinary tract infections) - are systematically recorded. The findings should provide information on the effect and qualitative transfer of the existing strength concept in everyday clinical practice. The strength training performed is accompanied by the master student and documented in a standardized manner.
It is recognised that weight gain is a common problem in patients with a spinal cord injury and can lead to an increased incidence of metabolic syndrome. Weight gain is thought to be attributed to excess calorie intake, reduction in energy requirements and / or a reduction in exercise. However, further understanding of this energy imbalance needs to be addressed. This feasibility study will initially determine if it is feasible to measure the 'actual' energy requirements of 15 paraplegic and 15 tetraplegic (ventilated and non-ventilated) in-patients during bed rest and rehabilitation following acute SCI. This preliminary data will be compared to 'predicted' energy expenditure levels. The calorie intake and body composition for each patient will be measured as well as factors indicative of metabolic syndrome. The study will initially provide statistical information in order to estimate the sample size required for a future definitive study.
The study is a prospective cohort study designed to assess the diagnostic and prognostic potential of biomarker measurement in acute traumatic spinal cord injury (TSCI), and to examine the neuroinflammatory response to acute TSCI.
The purpose of this study is to see what effects sacral neuromodulation has on bladder function and quality of life in patients with acute spinal cord injury. Within 12-weeks of injury, participants will either receive an implanted nerve stimulator (like a pace-maker for the bladder) or standard care for neurogenic bladder. Patients will be assigned to one of these groups at random and followed for one year. The hypothesis is that early stimulation of the nerves will help prevent the development of neurogenic bladder.