Tesamorelin to Improve Functional Outcomes After Peripheral Nerve Injury
Peripheral Nerve InjuriesThe aim of this clinical trial is to assess the efficacy of tesamorelin as a therapy for peripheral nerve injuries. The investigators hypothesize that treatment with tesamorelin will allow for faster and greater recovery of motor and sensory function following surgical repair of injured peripheral nerves. Patients with upper extremity nerve injuries will be randomly assigned to receive either the drug or a placebo (inactive drug). A number of tests for nerve regeneration, muscle function and sensation will be performed every month for a total of 12 months. Outcomes in the patients treated with tesamorelin will be compared to outcomes in patients who received the placebo to determine the effectiveness of tesamorelin as a therapy for nerve injuries.
Fixation In-situ vs Removal for Midfoot Lisfranc Injuries
Lisfranc InjuriesInjuries to the midfoot tarsometatarsal joint, or Lisfranc joint, are notoriously debilitating. Poor functional outcomes following Lisfranc injuries have motivated surgeons to look for potential improvements in post-operative care. There are currently no evidence-based guidelines to direct implant removal for patients with operatively treated Lisfranc injuries. Routine implant removal has significant implications related to health care costs, lost time from work, potential surgical complications, and possibly functional impairment. Therefore, stakeholders including patients, surgeons, employers, and administrators will benefit from evidence-based guidelines for implant removal following operatively treated Lisfranc injuries. To date, there has not been a prospective randomized study evaluating the efficacy of implant removal compared with implant retention for Lisfranc injuries. The aim of this study is to directly compare patient-reported and radiographic outcomes, in order to provide robust evidence for optimal post-operative treatment regimens regarding implant removal or retention for operatively treated Lisfranc injuries.
A Multi-Center Clinical Trial in Individuals With Spinal Cord Injury
Spinal Cord InjuriesThe overall objective of this project is to investigate the effectiveness of daily acute intermittent hypoxia therapy (dAIH), coupled with massed practice training, to improve upper-extremity function in individuals with chronic incomplete cervical SCI.
Open and Endovascular Surgical Treatment for Artery Injuries
Artery InjuryTraumatic injuries of peripheral arteries are often associated with multiple injuries, massive hemorrhage, state of shock, and loss of blood supply, as well as with high mortality. Traditionally, an open surgical approach is suggested for the management of artery injury. With the advancement of endovascular techniques, the traditional open vascular exposure and vessel repair are no longer the only option available. The purpose of this study is to compare the effectiveness, long-term safety and explore the safety and efficacy factors between open and endovascular surgical techniques.
Combined tDCS and Cognitive Training to Reduce Impulsivity in Patients With Traumatic Brain Injury...
Traumatic Brain InjuryImpulsivityBehavioral changes following a traumatic brain injury (TBI) are one of the biggest challenges for patients, as well as their family members and others involved in their recovery. One of the most common behavioral changes following TBI is the emergence of impulsive behavior, which has been associated with destructive, suicidal, and aggressive behavior, and is related to poor rehabilitation program adherence. The primary objective of this study is to investigate the effect of a novel neuroplasticity based intervention that combines cognitive training and transcranial direct current stimulation (tDCS) to reduce impulsivity and to improve outcomes and quality of life for those who have suffered a TBI.
Biologic Therapy to Prevent Osteoarthritis After ACL Injury
Anterior Cruciate Ligament InjuriesAnterior cruciate ligament (ACL) injuries are extremely common. On average, 50% of individuals suffering an ACL injury will develop radiographic osteoarthritis (OA) 10 to 20 years after injury. Unfortunately, ACL reconstruction does not prevent risk of future OA. Interleukin-1 (IL-1) levels in the human knee joint increase transiently after an ACL injury. In animal experiments, if interleukin-1 levels are increased in the joint, this alone causes arthritis to occur. Interleukin-1 receptor antagonist (IL-1Ra) is a naturally occurring inhibitor of IL-1. However, in ACL injuries the balance of these two proteins is disturbed transiently after injury, with the effects of IL-1 dominating this balance. In a large animal model of ACL injury, injection of IL-1Ra into the knee joint after ACL injury significantly decreased the amount of arthritis that was later observed. Thus, the investigators hypothesize that early injection of IL-1 inhibitor (IL-1Ra) into the knee joint of patients suffering recent ACL injury will decrease the incidence of cartilage damage later in life. After appropriate IRB approval, a total of 32 active patients will be randomized into one of two treatment groups. Group 1 will receive removal of the knee joint fluid (aspiration of hemarthrosis) using a needle and syringe within 1 to 2 weeks of injury. Following aspiration of the knee joint, an injection of 5 milliliters (mls) of sterile saline (as a placebo control) will be administered. In addition, a second knee aspiration procedure and an injection of 5mls of sterile saline into the injured knee joint will be performed at 3 to 5 days after the initial injection. Group 2 will receive aspiration of the knee hemarthrosis as described in group 1 as well as intra-articular administration of 150mg (~5mls) of anakinra (rhIL-1Ra) within 1 to 2 weeks of ACL injury. In addition, a second knee aspiration and intra-articular administration of 150mg (~5mls) of anakinra (rhIL-1Ra) will be performed at 3 to 5 days after the initial injection. Thus, all patients in this randomized placebo-controlled trial will undergo two injection procedures prior to surgery. Investigators will analyze subjects self-reported function and pain scores as well as urinary levels of cartilage breakdown products over time. Additionally, MRI studies will be used to compare MRI findings among patients in these 2 treatment groups. Urine samples will be obtain prior to surgery, at the time of surgery and at multiple time points after surgery (3, 6, 9, 12 and 24 months after surgery). Subjective outcome measure assessments (surveys) will be completed by participants prior to surgery and then again at 6, 9, 12 and 24 months post-operatively. MRI studies will be obtained at 1 year and 2 years following surgery. Additional, MRI studies at time points are optional and highly encouraged. These additional MRIs are at no cost to the patient.
HEMOglobin Transfusion Threshold in Traumatic Brain Injury OptimizatioN: The HEMOTION Trial
Traumatic Brain InjuryTransfusionMost trauma deaths are related to traumatic brain injury (TBI). Although the management of patients has improved, mortality remains unacceptably high, and half of survivors of moderate and severe TBI are left with major functional impairment. Current management guidelines are based on limited evidence and practice is highly variable. Most acutely ill patients with TBI will develop anemia, which may decrease oxygen delivery to a fragile brain. While clinical practice is moving towards transfusing at low hemoglobin (Hb) levels, experts have expressed concerns regarding restrictive strategies, which may adversely affect clinical outcomes in TBI. Our primary objective is to evaluate the effect of red blood cell (RBC) transfusion thresholds on neurological functional outcome. We hypothesize that a liberal transfusion strategy improves outcomes compared to a restrictive strategy.
Electrical Stimulation for Continence After Spinal Cord Injury
Spinal Cord InjuryNeurogenic Bladder1 moreThis study aims to improve continence and voiding of patients with spinal cord injury using electrical stimulation. The Finetech Vocare Bladder System is an implantable sacral nerve stimulator for improving bladder and bowel function in patients with spinal cord injury (SCI). It has been commercially available in Britain and other countries since 1982, and has been used in thousands of patients with SCI to improve bladder, bowel and sexual function. It received FDA approval in 1998 under Humanitarian Device Exemption H980005 and H980008 for providing urination on demand and to aid in bowel evacuation. Electrical stimulation to produce bladder contraction and improve bladder voiding after spinal cord injury has usually been combined with cutting of sensory nerves to reduce reflex contraction of the bladder, which improves continence. However, cutting these nerves has undesirable side effects. This study will not cut any sensory nerve. This study is testing the use of the stimulator for inhibiting bladder contraction by stimulating sensory nerves to improve continence after spinal cord injury, and for blocking sphincter contraction to improve voiding.
Deep Brain Stimulation in Patients With Incomplete Spinal Cord Injury for Improvement of Gait
Spinal Cord InjurySpinal cord injuries are anatomically mostly incomplete, showing tissue bridges of the spinal cord at the injury site. Of the 60% functionally incomplete patients, about half face a life in the wheelchair. Besides conventional rehabilitation, no prominsing further treatment options exist. One of the most plastic systems involved in locomotion is the pontomedullary reticulospinal tract, which is the oldest locomotor command system existing in most vertebrates, including primates. Muscle activation patterns for limb movements are programmed in the spinal cord and have to be activated and coordinated through commands from the so called mesencephalic locomotor region (MLR). The MLR consists of nerve cells in the lower mesencephalic tegmentum sending uni- and bilateral signals through the medullary reticulospinal tracts. Classical physiological studies showed that electrical stimulation of the MLR induce locomotion. For the first time this approach was transferred and recently published in a model of induced incomplete spinal cord injury by the Schwab group. Rats severly impaired in motor hindlimb control with only 10-20% spared white matter, recovered with fully functional weight bearing locomotion under MLR deep brain stimulation (DBS). Even rats with only 2-10% spared white matter regained weight supporting stepping. DBS is a clinical standard treatment option in patients with movement disorders but does not relieve all symptoms. Therefore, small studies of MLR stimulations have been safely used in Parkinsonian patients showing freezing of gait and frequent falls with variable results. In a translational approach, we aim at performing a multidisciplinary phase one clinical trial with 5 patients and incomplete spinal cord injury. With the means of our established universitary setup for DBS treatments the operations will be performed unilaterally under local anaesthesia in the Division of Neurosurgery, USZ, with perioperative electrophysiological recordings, clinical assessments and gait analysis under test stimulation in the Spinal Cord Injury Center Balgrist.
Evaluation of the Effectiveness and Tolerance of Tetracosactide Synacthen® in the Treatment of Post...
Post-dural Puncture HeadacheThe aim of the study is to assess the efficacy and safety of Synacthène® versus placebo in the treatment of post-dural puncture syndrome in patients receiving epidural analgesia, spinal analgesia, or combined spinal-epidural analgesia for labour.