View clinical trials related to Wounds and Injuries.
Filter by:Study of the effect of gabapentin used as a preemptive to the emergence and development chronic neuropathic pain in patients after spinal cord trauma
The purpose of the study is to detect the presence of autoantibodies and autoantigens in cerebrospinal fluid early (<48 hours) following spinal cord trauma. The study also aims to define the central or peripheral origin of autoantibodies by looking for their simultaneous presence at the blood level and to evaluate the prognostic value of the presence of autoantibodies within the cerebrospinal fluid, as well as on the initial clinical severity than on the recovery potential.
This is a 4-year, non-randomized, single center, patient self-controlled, clinical trial (though enrolled subjects will be followed for life as are all transplant patients) for patients seeking allotransplantation of the male external genitalia (MEG), or penile tissue, as a feasible reconstructive strategy for the treatment of devastating and irreversible injuries to the genitalia. In addition to receiving penile allotransplantation and post-operative monitoring and support, enrolled patients will receive an innovative and clinically proven immunomodulatory protocol that combines lymphocyte depletion of the recipient with donor bone marrow cell infusion. Patients will be treated with lymphocyte depleting induction therapy, donor bone marrow cell infusion and tacrolimus. After the first year, maintenance immunosuppression will be modified gradually and cautiously (tapered dose reduction or spaced frequency dosing of tacrolimus) in selected patients based on a critical evaluation of clinical and immunologic outcomes. Outcomes will include but not be limited to functional metrics (sensation, erection, voiding), psychosocial (body integrity, adaptation to transplant) and health related quality of life (HRQOL) measures.
Zipline incision approximation vs. Suture -- zips 3 study. A prospective, multi-site, non-blinded, randomized controlled, study designed to evaluate user preferences associated with use of the zipline 3 system versus conventional suturing for incision closure.
During labor and delivery, pregnant women may choose to receive pain relief called epidural analgesia, which is the delivery of a numbing agent through the back and into a body space around the spinal column. This numbs the area of the stomach and the pelvis. Typically the numbing agent is lidocaine, which is a local anesthetic like your dentist uses. Some times the numbing agent is combined with another medication that causes drowsiness and relieves pain called a narcotic. One of the risks associated with having this kind of pain relief is unintentional puncture of a sheath of tissue that surrounds and protects the spinal cord when inserting the needle. This sheath is called the dura. This would cause the fluid surrounding the spinal cord to leak out and this would cause a headache. This headache is called a post-dural puncture headache [PDPH]. The headache can be mild or severe. Rarely, PDPH can be serious and cause bleeding or small clots in the brain and damage to nerves that come out of the brain. The purpose of this study is to test the use of a technique that uses a hollow cotton swab [no needles] to numb a nerve cell cluster that sits at the very back of the nasal cavity. The anatomical name for this nerve cell cluster is the sphenopalatine ganglion. This has been done before at BJH and other hospitals with positive results, but no formal studies have been conducted here. Also, the sphenopalatine ganglion [SPG] has been the treatment target for other kinds of headaches. To numb the SPG, a hollow tip cotton swab [like a long Q-Tip] is inserted through the nose to the back of the nasal cavity and a solution of numbing agent is slowly pumped through the hollow Q-tip. This study will include a group that will receive a salt solution through the swab instead of a numbing agent. Subjects will be offered BJH standard care for their headache if they do not have relief from the study procedures. Standard care would be decided by their treating physician and may include oral pain medications and/or medications like ibuprofen [Motrin] or they could have a procedure called an epidural blood patch. This is performed by injecting a small amount of the patient's own blood into the areas of the spinal column where the original epidural anesthesia was injected in order to "patch" the leaks in the dura.
This clinical trial evaluates the safety and diagnostic performance of a newly developed combined catheter that will be implanted into the brain of patients with severe brain injury for short time (up to 28 days) monitoring of the electric activity and the metabolism of brain tissue at risk. Ten patients will be monitored with the new device and seven patients will be monitored by intracerebral probes according to standard treatment.
Pilot Study of Clinical Safety and Feasibility of the Neuro-Spinal ScaffoldTM for the Treatment of Complete (AIS A) Traumatic Acute Spinal Cord Injury at the C5-T1 Neurological Levels The purpose of this study is to support an expansion to support marketing applications as well as future studies.
The overall vision of this proposal is to demonstrate that a virtual reality based motor imagery training program will improve brain computer interface (BCI) performance and motor function in quadriplegic subjects. The ultimate goal is to increase the independence of subjects with spinal cord injury by training to safely control BCI assistive devices and to enhance motor recovery.
Traumatic brain (TBI) injury is the major cause of morbidity and mortality worldwide especially in population under 40 years of age and has a significant socioeconomic impact. TBI results from the head impacting with an object or from acceleration/deceleration forces that produce vigorous movement of the brain within the skull, with the resultant mechanical forces potentially damaging neurones and blood vessels and causing irreversible, primary brain injury. Primary injury leads to activation of cellular and molecular responses which lead to disruption of the blood-brain barrier causing the brain to swell. As the intracranial space is not expandable (i.e. is fixed), this swelling leads to increase in intracranial pressure (ICP) compromising blood supply to the rest of the brain leading to secondary brain injury. As we are unable to reverse the primary injury, current protocols use supportive measures to control the ICP and ensure optimal blood supply to the brain in an attempt to minimize secondary injury. Our understanding of the factors involved in the initiation and propagation of brain swelling in TBI is growing and the role of neuroinflammatory cytokines in this process is increasingly recognized. In preclinical models of TBI, a specific inflammatory cytokine termed substance P (SP) is found to be associated with blood-brain barrier disruption and development of brain oedema in the immediate phase following injury. The aim of this study is to examine the role of SP in the genesis of cerebral oedema and elevation of ICP and thus secondary injury following human TBI. This would be achieved by blocking SP function with a SP receptor antagonist Fosaprepitant (IVEMEND®, Merck) in the first 24 hours following TBI and then continuously measuring ICP and assessing the evolvement of TBI using magnetic resonance imaging.
The primary objective of this study is to investigate the pharmacokinetic and -dynamic properties of rivaroxaban after oral administration in cervical spinal cord injury (SCI) individuals. The secondary objective of this study is to determine the steady-state rivaroxaban activity in cervical SCI individuals under long-term therapy. Primary Objective In-house patients will be informed concerning the study and informed consent will be collected. During the screening day, in- / exclusion criteria will be assessed and a blood samples will be taken for assessing haematology, clinical chemistry and coagulation parameters. Furthermore, the evaluation day will be scheduled. On the evaluation day, in- / exclusion criteria will be re-assessed. A venous catheter will be introduced into a forearm or lower leg of each participant for the collection of blood at the specified time points. Skin inspection for subcutaneous bleeding will be performed and vital signs will be recorded. A blood sample will be taken for assessing haematology, clinical chemistry and coagulation parameters. Single administration of oral rivaroxaban in the form of Xarelto® 10mg tablets (Bayer Schering Pharma, Berlin, Germany). Rivaroxaban concentrations will be determined from plasma samples taken before, 30min after and 1, 2, 3, 4, 5, 6, 8, 12, 24 hours after rivaroxaban administration. Rivaroxaban activity will be determined from plasma samples taken before, 30min after and 1, 2, 3, 4, 5, 6, 8, 12, 24 hours after rivaroxaban administration using a factor Xa inhibition test and measuring prothrombin time (PT) and activated partial thromboplastin time (aPTT). Skin inspection for subcutaneous bleeding and measurements of vital signs will be performed 30min and 1, 2, 3, 4, 5, 6, 8, 12 and 24 hours after rivaroxaban administration. Secondary Objective Patients under long-term rivaroxaban therapy will be recruited during their annual check-up visit at the Swiss Paraplegic Centre. In- / exclusion criteria will be assessed, and the patients will be informed concerning the study and informed consent will be collected. Blood samples will be taken for assessing haematology, clinical chemistry and coagulation parameters, and skin inspection for subcutaneous bleeding and measurements of vital signs will be performed. A blood sample (4.3ml citrated venous blood) will be taken for assessing the primary and secondary outcome parameters.