Imaging [18F]PI-2620 and [18F]Florbetaben in Military Service Members With Blast Related Mild Traumatic...
Mild Traumatic Brain InjuryThe main objective of this interdisciplinary study is to develop an understanding of the molecular imaging features of blast-related mild traumatic brain injury (mTBI) in military personnel, while helping to establish assessment tools that may be of use in diagnosis, determining prognosis, and in future therapeutic clinical trials. Additionally, the objective is to evaluate feasibility of [18F]PI-2620 in the assessment TBI.
The FBRI VTC Neuromotor Research Clinic
Neuromotor ImpairmentsCerebral Palsy6 moreThe FBRI VTC Neuromotor Research Clinic was established and opened in May of 2013 to provide intensive therapeutic services to individuals with motor impairment secondary to neuromotor disorders. It is direct by Dr. Stephanie DeLuca and based on the principles surrounding ACQUIREc Therapy. ACQUIREc Therapy is an evidenced-based approach to pediatric constraint-induced movement therapy, which refers to a multi-component form of therapy that is focused on helping children who have asymmetric motor abilities between the two sides of the body. Historically, ACQUIREc Therapy has the unimpaired or less impaired upper extremity constrained (by a cast or a splint) while also receiving active therapy from a specially trained therapist who shapes new skills and functional activities with the child's more impaired upper extremity but who is also a licensed Occupational or Physical Therapist (OT/PT). Therapy dosages are high much higher than tradition OT or PT - often lasting many hours per day, up to 6 hours a day, 5 days a week, for 2-4 weeks. Investigators have developed further treatments based on the same principles of intensive services combined with behavior shaping for other areas of the body that are also affected by weakness (e.g., the leg and trunk) also, but which usually do not involve constraint. These have been more generally labeled ACQUIRE Therapy. All forms involve intensive, play-based therapy for children with asymmetric motor impairments of the arms and hands. The primary focus of treatment is to facilitate the acquisition of new motor skills in the child's weaker body parts through high levels of intensive therapy using scientifically-based behavioral guidelines. Therapy is also delivered in naturalistic environments. ACQUIREc Therapy as a treatment method has been tested in two randomized controlled trials, and a specific manual for its implementation has been developed. Dr. (s) Ramey and DeLuca previously founded a similar clinic, The Pediatric Neuromotor Research Clinic, at the University of Alabama at Birmingham where Dr. DeLuca directed the research clinic for 13 years and oversaw the implementation of the ACQUIREc Therapy treatment protocol in more than 400 cases. This research will involve analyzing and interpreting the clinical data of children going through clinical procedures at the FBRI VTC Neuromotor Research Clinic. All participation is voluntary and no children will denied services if families choose not to participate.
Mobile Health Self-Management and Support System for Chronic and Complex Health Conditions
Spinal Cord InjuriesCerebral Palsy4 moreThis study will assess the benefits of using mobile health system designed for individuals with chronic and complex health conditions (such as those with Spinal Cord Injury,Cerebral Palsy, Spina Bifida, and Traumatic Brain Injury) to improve their wellness and self-management skills compared to those who receive standard of care only.
Objective Dual-task Turning Measures for Return-to-duty Assessments
Mild Traumatic Brain InjuryGait3 moreThe overall objective is to evaluate objective dual-task turning measures for use as rehabilitative outcomes and as tools for return-to-duty assessments in individuals with mild traumatic brain injury (mTBI).This project consists of three goals examining the I) Diagnostic Accuracy, II) Predictive Capacity, and III) Responsiveness to Intervention of dual task turning measures in individuals with mTBI. The investigators hypothesize that objective measures of dual-task turning will have high diagnostic accuracy, predictive capacity, and responsiveness to intervention in people with mTBI.
Defining the Operating Characteristics of NIRS in the Diagnosis of Pediatric Traumatic Intracranial...
Craniocerebral InjuriesHead Injuries7 moreIn this study, investigators look at a different type of technology that might help to avoid having to perform CT scans in certain patients suspected of having a head injury. Near-infrared spectroscopy (NIRS) uses a specific light wavelength to determine if there is bleeding into the head as a result of trauma. Investigators will study NIRS, using a device called the Infrascanner model 2000, to determine if it is as good at detecting bleeding in the head as CT scan, which is the current gold standard. Investigators will try to determine if NIRS can rule in or rule out bleeding into the head, and perhaps this can help to avoid subjecting these youth to the potentially harmful effects of radiation. Investigators will also study how easy it is to use NIRS so that it might become a standard part of the workup for children with suspected head injury.
Traumatic Brain Injury and Stroke Long Term Outcome
Traumatic Brain InjuryStrokeInvestigators will determine the long-lasting effects of post-acute rehabilitation after traumatic brain injury and stroke. Investigators will also evaluate if the beneficial effects of rehabilitation continue after discharge from a rehabilitative program.
Post-Concussion Syndrome in Professional Athletes: A Multidisciplinary Study
Chronic Traumatic Encephalopathyto examine the relationship between repeated concussions and late decline of brain function. In addition, all participants agreeing to participate in the study will be asked to will their brains to The Krembil Neuroscience Centre Concussion Project at the Toronto Western Hospital with the consent and full knowledge of their families and doctors. However, it is possible to participate in the research without agreeing to a brain donation. The Project Team is specifically attempting a clinical-MRI-brain tissue research analysis to determine the exact mechanism of the damage to brain tissue following repeated concussions. This condition is known as chronic traumatic encephalopathy (CTE), and shows an abnormal protein in the brain called tau-protein.
Cerebrovascular Reactivity and Oxygen Metabolism as Markers of Neurodegeneration After Traumatic...
Neurodegenerative DiseasesThis grant award entitled, "Cerebrovascular Reactivity and Oxygen Metabolism as Markers for Neurodegeneration after Traumatic Brain Injury" (hereafter, "Neurovascular Study"), aims to determine if neurovascular contributors to neurodegeneration can serve as markers of the emergence or progression of degenerative processes after traumatic brain injury in middle-aged and older adults.
Safety of Cultured Allogeneic Adult Umbilical Cord Derived Mesenchymal Stem Cell Intravenous Infusion...
Traumatic Brain InjuryThis trial will study the safety and efficacy of intravenous infusion of cultured allogeneic adult umbilical cord derived mesenchymal stem cells for the treatment of traumatic brain injury
Register Study: Implementation of Pharyngeal Electrostimulation Therapy for the Treatment of Acute...
Neurogenic DysphagiaTraumatic Brain Injury5 moreNeurogenic dysphagia occurs with disruption of neurological systems or processes involved in the execution of coordinated and safe swallowing. It is common in patients with neurological diseases, in particular in patients treated in Intensive Care Units (ICU) who are intubated (up to 62%) and / or tracheotomised (up to 83%). Dysphagia is one of the most common and most dangerous symptoms of many neurological diseases. In addition, neurogenic dysphagia can have a significant impact on quality of life, medication efficacy, and malnutrition. Dysphagia is currently treated conservatively on evidence-based exercises, individually adapted to each patient. In the recent years pharyngeal electrostimulation has been established and shown a positive impact on outcome. In fact, this type of therapy has not only become an addition to the existing therapy, but an important alternative for patients difficult to treat by other means. The Phagenyx® is a medical device, which has lately been used more frequently in multiple hospitals for treatment of neurogenic dysphagia. For nearly two decades pharyngeal electrostimulation has been further developed and optimised. This therapy initiates changes in the swallowing motor cortex through neuroplasticity as well as local changes in peripheral sensory architecture associated with swallowing. Bath and colleagues (2020) recently reported the efficacy of pharyngeal electrostimulation (Phagenyx®) in various neurological conditions. As a result, of current published studies, the use of pharyngeal electrostimulation probe, in selected patients, with neurological diseases with moderate to severe neurogenic dysphagia will be evaluated. This trial will initially start as quality assurance project with the aim to extent it into a monocentric based register study. The Investigators aim to validate the effectiveness of pharyngeal electrostimulation for the treatment of moderate to severe neurogenic dysphagia by systematically recording specific dysphagia-relevant parameters. At present, it is still uncertain to what extent patients with neurogenic dysphagia in the context of a non-acute neurological disease could benefit from this method. The research questions: Does the use of the pharyngeal electrostimulation probe have an influence on the outcome of dysphagia in patients with moderate to severe neurogenic dysphagia? How long after therapy, can the use of the pharyngeal electrostimulation probe lead to oral food intake and/or removal of a tracheal cannula?