Objective Brain Function Assessment of mTBI/Concussion in College Athletes
Brain InjuriesTraumatic8 moreThis study (Part 1) is designed to build a database including EEG, neurocognitive performance, clinical symptoms, history and other relevant data, which will be used to derive a multimodal EEG based algorithm for the identification of concussion and tracking of recovery. In addition, neuroimaging will be conducted at time of injury and following Return to Play (RTP).
Brain Activity During Birth for Prediction of Newborns at Risk for Brain Injury
EncephalopathyAsphyxia NewbornsThe purpose of this study is early identification of asphyxiated newborns through eeg starting in the delivery room.
Detection of Hemodynamic Changes in TBI Population With Functional Near Infrared Spectroscopy
Traumatic Brain InjuryThe goal of this project is to develop a test to assess frontal lobe function using a rapid, inexpensive, objective, and standardized method, without the need for expertise in cognitive test administration. Such methods would be particularly helpful in traumatic brain injury (TBI), where objective measures are needed, and would greatly expand the capacity to make such assessments in clinical practice and research.
SpareBrain - Mechanisms and Prevention of Secondary Brain Injury in Subarachnoid Haemorrhage
Aneurysmal Subarachnoid HemorrhageSubarachnoidal hemorrhage (SAH) is a cause of long-term disability and death. Annually about 1000 people in Finland suffer from SAH, their average age being under 50 years. SAH has a mortality rate of 12 % acutely and 40 % of patients die within a month from admission to hospital. In addition, 30 % of the surviving patients remain with neurological deficits. Most survivors of the primary insult suffer from secondary injury during the first 2-3 weeks from the insult. Despite the advances in neurosurgical and -radiological techniques and intensive care, the mortality and morbidity rates in SAH have not changed in recent years. There is still only limited understanding of the mechanisms of secondary insults causing brain injury after SAH. In this study the investigators are aiming to clarify the timescale and mechanisms contributing to the secondary insults. The investigators also explore usability of novel biomarkers to guide treatment of the patients suffering from SAH.
Robot-Aided Neurorehabilitation of the Upper Extremities
Robot-aided Arm TherapyBrain Injury2 moreTask-oriented repetitive movement can improve movement performance in patients with neurological or orthopedic lesions. The application of robotics can serve to assist, enhance, evaluate, and document neurological and orthopedic rehabilitation of movements. Arm therapy is used in neurological rehabilitation for patients with paralyzed upper extremities due to lesions of the central or peripheral nervous system, e.g. after stroke or spinal cord injury. The goal of the therapy is to recover motor function, improve movement coordination, learn new motion strategies ("trick movements"), and/or prevent secondary complications such as muscle atrophy, osteoporosis, and spasticity.
Microstructural Changes in the Brain During Recovery After Mild Traumatic Brain Injury
Brain ConcussionThis study examines the possible microstructural changes in the brain during recovery after mTBI using diffusion MRI.
Mild Traumatic Brain Injury Registry
Brain InjuryTraumaticThe purpose of the study is to gather information about patients with mild traumatic brain injury in order to develop guidelines for evaluation and treatment.
Addressing Attitudes to Improve Use of Protective Headwear in Older Adults
Injury of Unknown Intent Due to Fall From HeightTraumatic Brain InjuryThe goal of this phase of the project is to identify the elements of the Theory of Planned Behavior (TPB) that should be targeted to provide the most influence on older adults' behavior (or other stakeholders) to purchase and wear protective headwear. The investigators also intend to determine the format of communication (social marketing/academic detailing) that is most influential for different key stakeholder groups. The TPB has been useful in understanding behavior change related to exercise and adaptive equipment use (such as grab bars, canes, hip protectors); in understanding how a person's attitudes, subjective/social norms and perceived behavioral control inform the development of intention that leads to behavior change.
Serum Neuroglobin and Nogo-A Concentrations in Acute Traumatic Brain Injury
Traumatic Brain InjuryNeuroglobin has been described as a marker of traumatic brain injury. Nogo-A plays an important role in mediating neuroanatomical plasticity and functional recovery following traumatic brain injury. The investigators sought to examine the changes in serum neuroglobin and Nogo-A concentrations in patients with traumatic brain injury during the initial 96-h posttraumatic period and assessed the relation of neuroglobin and Nogo-A to Glasgow Coma Score and prognosis of such patients with traumatic brain injury.
Deployment Related Mild Traumatic Brain Injury (mTBI)
Mild Traumatic Brain InjuryThe study will provide evidence on the long term outcomes of mTBI in service members returning from Afghanistan and Iraq. In addition, the study will provide evidence on mTBI incidence, and symptom patterns. Self-reported assessments at baseline and follow-ups will be combined with data on health care utilization and military job performance. The work, symptoms, and family interaction outcomes of returning soldiers screening positive for mTBI, combined mTBI and PTSD, and soldier controls will be compared at 3 months, 6 months, and at one year. The assessments over time will permit descriptions of symptom changes for these populations. It is likely the study will find similar findings to those of previous civilian studies - that concussive symptoms often resolve within months of injury. However, some soldier subsets may have chronic problems. Determining the incidence and outcomes of individuals with mTBI will assist medical providers in determining the types of follow-ups needed by returning service members and suggest the development of additional treatment interventions. These results may also inform treatment of civilian populations with mTBI. The three primary hypotheses are: Concussive symptoms at the time of return from serving in Afghanistan and Iraq and symptoms persisting 3 months, 6 months, and 12 months after return will be associated with extent of exposure to combat, injury mechanism, associated injuries (co-occuring injuries), PTSD and other psychiatric co-morbidities, and number of deployment-related mTBIs. Returning troops reporting concussive symptoms at the time of return from deployment will have more work related problems at each follow-up (including lower rates of return to duty, return to work, and poor quality of work). The mTBI screening tool will be sensitive and specific to mTBI when compared to the criterion measure, which is a structured interview conducted by clinicians blinded to the screening results.