View clinical trials related to Brain Injuries.
Filter by:The purpose of this study is to obtain evidence of the safety of NNZ-2566 in healthy female volunteers and to determine the pharmacokinetics (PK) of NNZ-2566 in healthy female volunteers.
Fifteen to twenty percent of adults who suffer a traumatic brain injury (TBI) that requires hospitalization and rehabilitation have been found to have growth hormone (GH) deficiency by GH stimulation testing. Moreover, abnormalities have also been established for the cortisol and thyroid axis. The hypothesis of this proposal is that hormone replacement in TBI patients with documented abnormalities in the GH, thyroid, or cortisol axis will improve muscle function, body composition, aerobic capacity (GH) and tests of neuropsychologic function (GH, thyroid, cortisol).
Infants with congenital heart disease (CHD) requiring surgery frequently have brain injury seen on magnetic resonance imaging (MRI). This occurs in approximately 40% of these newborns, and even though these are full-term infants, the injury seen closely resembles the same form of brain injury that can be seen in premature babies. Much like premature newborns, infants with CHD also have long-term neurodevelopmental problems (in over 50%). The investigators do not know why infants with CHD get this specific form of brain injury. One risk factor is felt to be the inflammation that occurs in response to heart-lung bypass (cardiopulmonary bypass, or CPB), a necessary feature of open-heart surgery. Newborns have a stronger inflammatory reaction to CPB than older children or adults. The investigators do know from animal experiments and other human data that inflammation can be harmful to the developing brain. The investigators hypothesize that children with CHD requiring surgery as a newborn have brain injury due to toxicity from the inflammatory response. The investigators will test this by enrolling newborns undergoing heart surgery to measure markers of inflammation, measure brain injury by MRI, and then test their developmental outcome at 1 and 2 years of age. An association between inflammation and injury might impact what medicines are chosen to protect the brain in future studies, even in other populations such as preterm infants.
Many soldiers returning from their recent service in Operation Iraqi Freedom/Operation Enduring Freedom (OIF/OEF) were exposed to blasts during combat. About 60% of blast-injured soldiers are diagnosed with traumatic brain injury (TBI), with approximately 18% having a mild TBI (mTBI). mTBI is associated with many symptoms, including memory problems, headaches, difficulty concentrating, increased anxiety, and, especially relevant here, reports of difficulty understanding speech in noisy environments and/or when people speak rapidly. While problems understanding rapid speech or speech in noise are associated with hearing loss, many of the OIF/OEF veterans with these complaints have clinically normal hearing. Although there is no physical damage to their ears, these veterans' hearing problems have a negative impact on their quality-of-life and functioning. Thus it is incumbent upon the VA to examine intervention approaches for veterans with normal/near-normal auditory sensitivity and significant complaints of difficulty hearing. Currently, there is no standard-of-care for these veterans other than providing information about hearing, hearing conservation, and the use of communication strategies. Two forms of rehabilitation likely to be more effective than such an informational-counseling approach are: (1) the use of personal miniaturized Frequency modulation (FM) systems, and (2) the provision of auditory training with Posit Science Brain Fitness Program (BFP). Personal FM systems increase the loudness of the speech signal relative to that of the unwanted noise, while the BFP training improves the ability to listen by taking advantage of the brain's ability to change (i.e., neural plasticity). In this study veterans will randomly be selected to receive one of four treatments: (1) FM use alone, (2) BFP training alone, (3) FM+BFP training combined, and (4) informational-counseling. The effectiveness of the interventions will be compared using self-report of hearing functioning on standard questionnaires. Results will contribute to the development of evidence-based intervention approaches for blast-exposed veterans with reported functional hearing difficulties and normal/near-normal auditory sensitivity.
The investigators plan to utilize conivaptan (Vaprisol) to promote isolated water loss, in combination with normal (physiologic) fluid replacement to maintain a normal blood volume status, in patients with severe TBI. The goal of this therapy is to raise blood sodium in a controlled fashion in subjects with severe TBI, and reduce the use of hypertonic saline infusion. We hypothesize that this therapy will maintain a stable state of high blood sodium, while decreasing the overall sodium load needed to achieve these goals.
The development of pneumonia and other infections is one of the most common complications of a traumatic brain injury (TBI). Prior studies have also found that patients suffering from TBI also develop immune dysfunction consistent with an immunosuppressed state shortly after the traumatic event. Specifically, it has been shown that patients with a TBI have impaired delayed type hypersensitivity (DTH), cellular immunity and humoral immunity. The humoral arm of the immune system is particularly involved in defending the host against extracellular bacteria and is primarily composed of B-cells, immunoglobulins and complement. Surgery and trauma impair the clonal expansion of antibody producing B lymphocytes causing hypogammaglobulinemia, through a mechanism involving T lymphocytes. In addition, during the systemic inflammatory process, pro-inflammatory cytokines such as tumor necrosis factor alpha (TNF-alpha), interleukin 1 (IL-1beta) and interleukin 6 (IL-6) are released. Nuclear factor kappa beta (NF-kB) is a transcriptional regulatory protein that is involved in the expression of proinflammatory cytokines and appears to act at a critical step in the transcription of many proinflammatory genes. The hypothesis of this study is that the hypogammaglobulinemia from the immune dysfunction and the induction of NF-kB from the inflammatory process are, in part, responsible for the development of pneumonia and other infectious complications identified after TBI. This study has two specific aims: The primary specific aim of this study is to determine the association between serum immunoglobulin or NF-kB levels and the development of pneumonia in patients suffering from traumatic brain injury (TBI). The secondary specific aim of this study is to determine the relative contribution of clinical variables such as APACHE II-III Score and Injury Severity Score as compared to immunological variables (serum immunoglobulins and NF-kB) to the development of pneumonia in patients suffering from TBI.
The purpose of this study is to look at the relationship between growth hormones, and recovery from a TBI - traumatic brain injury. It is believed that a TBI may interfere with the body's ability to produce growth hormones. These hormones may be needed by the body for growth, mental development and sexual maturation.
The investigators evaluated whether it was possible to improve the measurement of memory, attention, and executive function in patients who have suffered traumatic brain injury through the use of computer-based testing. Note: the original design of the study was altered due to failure to recruit sufficient numbers of patients who were willing to undergo prolonged cognitive training.
This study investigates how well a new therapy program prevents persistent symptoms (e.g., headaches, fatigue, irritability, etc.) after concussion. The program involves examining beliefs about concussion and learning healthy coping strategies, and is completed with the first three months post-injury.
When fever is present in patients with stroke, traumatic brain injury (TBI), or brain hemorrhage, it has been associated with worse outcomes including larger areas of tissue death, increased length of stay, worse degree of coma, lower ability to function, and higher mortality. Both adult and pediatric TBI national guidelines state that maintenance of normal body temperature should be a standard of care. However, no further standards or options are presented to specifically guide practice. The current ischemic stroke guidelines state that fever should be treated with fever-reducing agents and offer "cooling devices" as an option but do not provide specifics to guide practice. Over 50% of patients in the Neurosurgical Intensive Care Unit (ICU) at Harborview Medical Center develop fever during the course of their stay. With elevated temperatures the body consumes more oxygen than if the temperature was normal, causing less oxygen to be available to the brain. This may lead to injury of the brain cells and a diminished capacity for healing. Thus, temperature management in neurologically vulnerable patients is both a prevalent and problematic challenge. Based on this information the goal of the present proposal is to evaluate if 1) A standardized, step-wise approach to temperature management using a Normothermia Protocol is successful in achieving and maintaining normal temperature in Neurosurgical ICU patients; and 2) If maintenance of normal temperature will be associated with fewer episodes of diminished responsiveness in their neurological exams as evidenced by a measure of depth of coma, as measured by the Glasgow Coma Score (GCS) compared to a control group treated according to usual care.