View clinical trials related to Spinal Cord Injury.
Filter by:This study will investigate potential therapeutic approaches for sleep-disordered breathing (SDB) in patients with chronic cervical spine injury (>6 months post-injury).
While treatment strategies for OH have been identified for use in persons with acute SCI, the field of SCI medicine lacks a gold standard for treatment thresholds and well-defined outcome parameters. Comprehensively documenting the impact of orthostatic hypotension (OH), regardless of symptoms, during acute rehabilitation and identifying the effects of two different treatment approaches on therapy participation and adherence to an intended rehabilitation plan could have a significant impact on clinical practice in the acute rehabilitation setting following SCI.
Objectives: To know the main therapeutic strategies used by men with spinal cord injury in sexual dysfunctions.
Changes in the GI microbiota and/or metabolomics have been linked to evolving transformations in immune system function and infection rates in experimental SCI in animal models. A recent study involving chronic survivors of SCI show distinct GI microbiome changes in comparison to healthy controls. GI microbial metabolism of dietary components has been causally linked to various health conditions, such as cardiovascular disease, infections, which is an ongoing concern for chronic SCI survivors. It is probable that alterations of GI microbiota are established acutely after SCI and could subsequently alter medical care and impact health outcomes for people living with SCI. This project is a pilot study to describe any changes in the GI and urinary tract microbiota as they appear over the first year after SCI. When available, data on factors, other than SCI, that may impact change in the gut microbiome after SCI will also be noted, including: - the level and severity of SCI, - the time since SCI, - the person's immune profile, - the antibiotic regimen of the individual and time since antibiotic administration, - the incidence and type of infections after SCI and - the person's diet or activities after SCI
Spinal cord neural circuitry exists in the lumbar enlargement that makes it possible to stand and create synergistic, rhythmic stepping activity in the lower limbs. In the past 20 years, clinicians have tried to reengage such these circuits for standing and walking in the lower spinal cord of paralyzed humans through novel paradigms of physical therapy, pharmacological stimulation of the spinal cord, or recently - epidural stimulation of the spinal cord. Although standing and stepping with these maneuvers are rudimentary at best, these human studies offer promise to restore controlled, lower extremity movement to the spinal cord injured (SCI) individual. Evidence from animal data suggests that more focal activation of intraspinal circuitry (IntraSpinal Micro-Stimulation - ISMS) would produce more fatigue resistant, natural standing and stepping activity in humans. To date, there has been no direct confirmation of such circuitry in the spinal cord of bipedal humans who have been paralyzed. Furthermore, mapping of such circuitry would provide the basis of a novel intraspinal neuroprosthetic that should be able to restore control of standing or walking in a manner that is much more physiologically normal and tolerable than by stimulating each individual muscle group. Proof of the existence of these spinal circuits in man, and the ability to activate and control these circuits by first mapping the spinal cord is the basis of this proposal.
The main objective is to conduct a study protocol to investigate the effects of repetitive Transcranial Magnetic Stimulation (rTMS) on sensory and motor performance of individuals with incomplete spinal cord injury (iSCI) . A double-blind randomized sham-controlled trial of patients with iSCI will be conducted.
Dysregulation of blood pressure (BP), secondary to decentralized autonomic nervous system (ANS) control of the cardiovascular system, often results in chronic hypotension and orthostatic hypotension (OH) in persons with spinal cord injury (SCI), particularly in those with high cord lesions (i.e., above T6). While most hypotensive individuals with chronic SCI remain asymptomatic and do not complain of symptoms associated with cerebral hypoperfusion, evidence of reduced resting cerebral blood flow (CBF) has been reported in association with low systemic BP in the SCI and non-SCI populations. Reduced CBF in hypotensive individuals may lead to cognitive dysfunction, and we reported significantly impaired memory and marginally impaired attention processing in hypotensive individuals with SCI compared to a normotensive SCI cohort. Furthermore, we found that CBF was not increased during cognitive testing in individuals with SCI, which may contribute to impaired cognitive function compared to non-SCI controls. Although asymptomatic hypotension may have an adverse impact on cognitive function and quality of quality of life (QOL) clinical management of this condition is extremely low. In fact, we reported that while nearly 40% of Veterans with SCI were hypotensive, less than 1% carried the diagnosis of hypotension or were prescribed an anti-hypotensive medication. The discrepancy between incidence and treatment of asymptomatic hypotension in the SCI population may relate to a paucity of treatment options which are supported by rigorous clinical trials documenting safe and effective use of anti-hypotensive therapy on BP, CBF and cognitive function. We hypothesize these study medications may increase systolic blood pressure to the normal range and improve cerebral blood flow velocity. Results and conclusions will not be removed from the record.
The purpose of this study is to learn more about how participants heal from acute spinal cord injury.
We aim to retrieve olfactory bulbs (OBs) from suitable human donors. We have defined two groups who will qualify: Group 1 - Deceased Donors: 1A: Donors after brainstem death (DBDs) undergoing solid organ donation 1B: Donors after brainstem death (DBDs) considered unsuitable for solid organ donation Group 2 - Living Donors: Neurosurgical patients undergoing anterior cranial surgery in which the olfactory nerve (ON) is cut as part of the surgical procedure. The OB of the concomitant severed ON would be donated. We aim to optimise OB collection and Olfactory Ensheathing Cell (OEC) culture and storage. We will study the effects of patient diagnosis, age, cause of death (if applicable), co-morbidities and warm ischaemic time on cell survival and regenerative function. In future studies we aim to store OECs in a GMP facility and transplant OECs into patients with spinal cord injuries.
The investigators have an existing exercise program (N>70) with a unique population of individuals with spinal cord injury (SCI) who have been enrolled in FES-RT for at least 6 months. Roughly half have high level SCI. Thirty individuals with high level SCI who have FES-row trained for at least 6 months will be randomized to (continued) FES-RT for 3 months with either NIV or sham NIV. Before and after training, the investigators will assess maximal aerobic capacity, ventilation, cardiac output, and arterio-venous oxygen difference. Based on the investigators current data, it is hypothesized that only those randomized to NIV will experience further increases in aerobic capacity and that these increases will relate to increases in cardiac output and arterio-venous oxygen difference. This Exploratory/Developmental Research project will lay the groundwork for a larger study of the impact of FES-RT+NIV to improve health and function in those with high level SCI.