View clinical trials related to Brain Injuries.
Filter by:The goal of this interventional study is to assess differences in the metabolic consumption, the cardiorespiratory effort, the cardiac autonomic adaptation, and fatigability during ADL, such as standing from a chair and walking while wearing an electrically powered exoskeleton in different modes of supports in subjects with neurological diseases with moderate to severe walking impairments.
The goal of this study is to characterize the ability and related brain profiles of children with Neonatal encephalopathy (NE) - Therapeutic hypothermia (TH) at 9 years old. The main questions it aims to answer are: 1. Compare executive function, attention, social cognition, behaviour, anxiety, self-esteem, and peer problems between children with NE-TH and matched peers without NE. 2. Compare brain volumes, cortical and subcortical morphology, white matter microstructure, and myelination between children with NE-TH and matched peers without NE. 3. Evaluate the associations of perinatal risk factors and structural brain integrity with neuropsychological deficits to inform about the potential aggravating and protective factors for neuropsychological functioning. Participants will complete one study visit to perform standardized evaluations and a brain MRI. Parents of participants will be invited to complete a series of questionnaires during this study visit or at a moment of their choice virtually.
Covert stroke occurs in one out of fourteen patients during or shortly after surgery, and may result in long-term disability. Fortunately, stroke that occurs during non-cardiac surgery is most commonly caused by inadequate blood flow to the brain and is, therefore, preventable if it can be detected early. Current clinical tools used to monitor the brain during surgery do not have the accuracy nor the spatial coverage - they only monitor one small region of the brain. In this study, the investigators plan to apply a cutting-edge optical device, tr-fNIRS, to monitor the whole brain during shoulder surgery. The primary aim is to determine any regional differences in cerebral oxygenation (ScO2) and cerebral autoregulation (CA)between brain regions during surgery and especially during various physiological challenges, such as hypotension. The investigators hypothesize that certain brain regions are more likely to develop cerebral desaturation and impaired CA, and are more prone to brain injury than the frontal lobe region which is the traditional monitoring site. The investigators also hypothesize that cerebral desaturation (or hypoxic injury) events correlate with adverse postoperative neurological outcomes such as covert stroke, overt stroke and/or postoperative delirium.
Action Observation Therapy (AOT) is a rehabilitation technique, used for several years, aimed at the recovery of motor function in patients with neurological and orthopedic conditions. The essential element of this approach is the patient's observation and subsequent mime of a sequence of daily actions, aimed at achieving a goal. This task is proposed repeatedly during a single rehabilitation session and repeated for a set number of sessions. The recovery of the presented motor patterns has, as its ultimate goal, the improvement of autonomy in activities of daily living (ADLs). The neurophysiological mechanism underlying motor cortical recovery is related to the activation of mirror neuron circuits and includes mechanisms of neuronal plasticity. In fact, it is well known how motor brain areas injured by a pathological process are able to activate during tasks of imagining or observing movements, with a correspondence between the type of movement observed and the specific motor cortical region involved in the given action. Activation of the brain areas in charge of movement, in addition to keeping the uninjured networks functioning, stimulates the injured ones by promoting, by mechanisms of neuronal plasticity, a reorganization of the primary motor cortex. The physiological basis for motor learning would thus be established, the cortical reorganization being decisive for the formation of a motor memory of the observed gesture and allowing the reacquisition, even partial, of the function of the injured motor cortex. Finally, motor cortical stimulation has a function in preventing dysfunctional cortical reorganization that intervenes after inactivity or disuse. As revealed by systematic review studies on the subject, the protocols used are very heterogeneous in terms of the type of patients to whom they were offered, the type and number of actions shown during treatments, their duration, and the rating scales used.
The management of patients with disorders of consciousness (DoC) represents a topic of great importance and topicality in the medical-scientific field because of the complexity and extent of associated disabilities and the difficulty in identifying effective therapeutic approaches. Despite significant advances in neuroscience, much remains to be elucidated about the mechanisms that regulate consciousness, and which of these to act on to stimulate plasticity and thus promote responsiveness and functional recovery in patients. Evidence on treatments that promote arousal and communication skills in individuals with DoC is still limited. Among the possible interventions proposed in the literature, sensory stimulation would act by stimulating synaptic plasticity, counteracting the sensory deprivation to which these patients are exposed. Published studies on the topic have produced results that are not unique and difficult to compare across different stimulation protocols (content, intensity, frequency, modality), settings and patient populations.
This study will seek consent from parents of children enrolled in the Malaria FEVER study to obtain neuroimaging and 12-month neuropsychiatric outcomes data and kidney function on their child. The imaging and evaluations for this observational study will occur after the child has recovered from the acute malaria infection and has otherwise completed the RCT intervention and safety evaluations.
The goal of this hybrid implementation-effectiveness study is to evaluate the effectiveness (hastened recovery times) and feasibility (fidelity in connecting to concussion specialty care) of a novel mobile health intervention, designed to reduce disparities in access to specialty care through the use of remote patient monitoring (RPM) to facilitate care hand-off from the emergency department (ED) to concussion specialty care. Participants will report their symptoms and activity once daily through RPM chat technology that is linked to their electronic health record and prompts referral to specialty care.
Researchers aim to determine whether the ReTrieve system for tactile training can improve tactile function (sense of touch) in the hand after brain injury when used at home for 6 weeks.
The main cognitive complaint in brain-injured patients is often the everyday disorganization caused by executive function (EF) deficits. In order to minimize the everyday disorganization, effective EF interventions are required. Interventions which incorporate compensatory strategies have the potential to enable patients to minimize disabilities, minimize participation problems and to function more independently in daily life. A well-known evidence-based intervention that incorporates compensatory strategies is Goal Management Training (GMT). GMT entails learning and applying an algorithm, in which a daily task is subdivided into multiple steps to handle executive difficulties of planning, and problem solving. To adopt the GMT strategy and ensure maximal profitability for patients, they have to learn to use the algorithm in different situations and tasks. Therefore, GMT is a comprehensive, time-consuming and thus labour-intensive treatment. Along with this, brain games become increasingly attractive as an (add-on) intervention, most notably in an effort to develop home-based personalized care. Until now, however, the rationale behind brain games is based on what can be considered the restorative approach (i.e. strengthening of executive problems) rather than practicing compensatory strategies, with little or no transfer to improvements in daily life functioning. This study therefore aims to assess the potential of a newly developed Brain Game, based on compensatory strategies, as an add-on to GMT to develop a shortened and partly home-based GMT intervention. The primary objective of this study is to assess whether the use of a compensatory brain game supported GMT treatment could be of interest in people with EF deficits after ABI, to improve goal achievement, their executive function performance during goal-related tasks, and their executive performance during an ecological valid shopping task. The study will be a multiple-baseline across individuals single-case experimental design (SCED). The study population consists of patients referred for outpatient cognitive rehabilitation. Participants eligible for the study must have executive deficits due to Acquired Brain Injury (ABI) of nonprogressive nature (i.e. TBI, stroke), with a minimum time post-onset of 3 months. Age has to be between 18 and 75 and participants have to live independently at home. Executive deficits will be assessed by extensive neuropsychological examination. Participants will be recruited from the outpatient clinic and the department of neurorehabilitation of Klimmendaal and Vogellanden. Four participants will be recruited.
Disorder of consciousness (DoC) is a state in which consciousness is altered because of brain damage and can occur under a variety of conditions: in fact, the most frequent causes of DoC are vascular disease, head trauma, and cerebral hypoxia. DoCs result from the loss of regulation of neural function of the two components of consciousness, alertness and awareness. Depending on the patient's behavior and responsiveness, DoCs can be identified in different states, from coma to persistent vegetative state (VS) to intermittent minimally conscious state (MCS). Regarding the prognosis of recovery, in patients with DoC the chance of having functional improvement decreases with time, although some positive functional changes have been observed in chronic patients. Therapies for DoC include some drugs, such as dopaminergic, GABAergic and amantadine drugs, which work to facilitate the recovery of consciousness. Neurorehabilitation, however, seems to be the most recognized intervention that aims to strengthen, in uninjured brain regions, the spontaneous neuroplasticity that occurs to compensate for lost function. Simultaneous stimulation of multiple senses, such as hearing, sight and smell, provides the neural network with more stimuli that are more effective than a single stimulus. In fact, multisensory stimuli can more easily activate attention because cortical processing is predominantly multimodal. As for content, it would seem that those with autobiographical and emotionally salient character could engage multiple brain networks and have priority access to attention. Numerous trials show that stimulus-containing content led to increased behavioural activity, improving self-awareness in patients with DoC. Considering that a communication system that can combine both visual and auditory channels proves to be more effective than a "single-sense" channel, multisensory stimulation is likely to provide simultaneous activation of different brain areas by enhancing plasticity processes. Furthermore, the intensity of stimulation could be one of the main variables with greater impact on the patient: in fact, higher intensity would correspond to a greater effect on the brain.