View clinical trials related to Spinal Cord Ischemia.
Filter by:The aim of the study is to evaluate the impact of the stent-assisted balloon-induced intimal disruption and relamination in aortic dissection repair (STABILISE) technique in the patency of intercostal and lumbar arteries detectable on computed tomography angiography (CTA) in patients with type B aortic dissection and its correlation with the occurrence of spinal cord ischaemia (SCI). Primary end-point: patency of the intercostal and lumbar arteries on follow-up CTA. Secondary end-point: spinal cord ischaemia
To assess safety and feasebility of the "safe-line" technique in a multicenter international collaboration.
This is a pilot study to be performed at the University of Alabama at Birmingham (UAB) and the University of Massachusetts to determine the feasibility and develop the processes for a future randomized controlled trial to evaluate the occurrence of spinal cord ischemia after endovascular thoracoabdominal aneurysm repair using prophylactic cerebrospinal fluid drains versus no pre-emptive drain. The research question to be addressed is as follows: In the setting of a comprehensive spinal cord ischemia prevention protocol, do prophylactic CSF drains decrease the rate of spinal cord ischemia (SCI) in patients undergoing endovascular thoracoabdominal aneurysm repair?
The SciExVR study will evaluate the potential benefit of autologous bone marrow derived stem cells (BMSC) in the treatment of spinal cord injury with evidence of impaired motor or sensory function. The treatment consists of bilateral paraspinal injections of the BMSC at the level of the injury as well as superior and inferior to that spinal segment followed by an intravenous injection and intranasal placement. Patients undergoing BMSC treatment may also be assigned to use of exoskeletal movement (or equivalent) or virtual reality visualization (or equivalent) to augment upper motor neuron firing and/or receptivity of the sensory neurons. http://mdstemcells.com/sciexvr/
During open surgery of a thoraco-abdominal aortic aneurysma (TAAA), diminished blood flow to the myelum can result in hypoxia, compromising proper function of the spinal cord. Intraoperatively, motor evoked potentials (MEP) are elicited to measure the functional integrity of the spinal cord. MEPs have proven to be a reliable marker of spinal cord ischemia. Moreover, these potentials react within minutes, which facilitates interventions to restore the blood flow. Monitoring intraoperatively with this ancillary test has reduced the rate of paraparesis to < 5%. Unfortunately, in the early postoperative period, spinal cord vulnerability is high. Therefore, some patients develop paraparesis, not during the surgical procedure, but after the surgical procedure. Postoperatively, suboptimal blood flow may lead to critical loss of function. This inadequate perfusion results in "delayed paraparesis". In the postoperative patient, it is not possible to measure MEPs when sedation is decreased, due to the high intensity of the electrical stimulus, which is unacceptably painful in the unanesthetized or partially anesthetized patient. Therefore ancillary tests are needed which can detect spinal cord ischemia postoperatively early, thus preceding the phase with clinically overt paraparesis. The test should be reliable and easy to perform for an extended period of time (up to several days). The purpose of this study is to explore the usefulness of various neurophysiological tests regarding accuracy and feasibility for the detection of spinal cord ischemia. In particular, to find a diagnostic test which is acceptable for the unanesthetized or partially anesthetized patient and therefore can also be performed postoperatively. These tests will be examined in fully sedated as well as partially sedated patients. The following candidate tests will be examined: 1. Long loop reflexes (LLR) consisting of F-waves. 2. Oxygenation measurements of the paraspinal muscles using Near-infrared spectroscopy (NIRS).