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NCT07277309
The overall aim of this study is to develop an intervention that can help recovery in patients surviving severe brain injury but failing to fully recover. In particular, this project aims to (1) determine neurobehavioral responses to low-intensity focused ultrasound (LIFUP) in patients with disorders of consciousness (DoC) following brain injury, (2) determine neurophysiologic (EEG) responses to LIFUP in patients with DoC and (3) identify and evaluate ethical perspectives of patient representatives (family members and surrogate decision-makers) surrounding investigation of therapeutic neuromodulation technologies such as LIFUP in patients with DoC.
NCT06939348
The overall aim of this study is to develop an intervention that can help recovery in patients surviving severe brain injury but failing to fully recover. In particular, this multicenter project aims to (1) establish short-term efficacy of tFUS as a therapeutic to promote recovery in patients with prolonged DoC as compared to sham treatment, (2) establish dose-related safety and efficacy of tFUS as a therapeutic intervention in prolonged DoC patients and (3) explore preliminary predictors and biomarkers of susceptibility and response to thalamic sonication.
NCT06930716
Prolonged disorders of consciousness (pDOC) are defined as DOC lasting \>1 year post injury for patients with Traumatic Brain Injury (TBI) and \>3 months post injury for patients with non-TBI and at present there are limited treatments that reliably lead to enhanced prognosis. The rehabilitation process throughout the continuum of care for patients with pDOC necessitates restorative strategies to facilitate arousal and functional recovery and coordinated medical management. Rehabilitation interventions for patients with DOC and pDOC have evolved in the past decade, with an emerging body of evidence highlighting the benefits of rehabilitation intervention even in the acute. While there is data to support the individual utility of these modalities, no work to date has investigated the benefits of pairing transauricular vagus nerve stimulation (taVNS) and robotic tilt table mobilization (RTTM) to maximize functional recovery in patients with pDOC. This study will report on the safety, feasibility, and preliminary short- and long-term outcomes of RTTM with simultaneously paired Transcutaneous auricular vagus nerve stimulation (taVNS) for Severe Acquired Brain Injury (SABI) patients with pDOC . Fifteen (15) participants will be recruited and complete a 12-week rehabilitation protocol using paired taVNS and RTTM. Once participants have been screened and enrolled in the study, they will complete three study phases: T1: a baseline observation of standard of care T2, intervention, and T3 longitudinal follow up.
NCT06426615
The CONSCIUS study is a prospective, interventional study including patients with acute brain injury and impaired consciousness implanted with intracranial electrodes. The aim of the study is to investigate seizures and thalamocortical neural dynamics underlying behavioral unresponsiveness.
NCT02772302
The primary aims of this study are: 1. To determine the feasibility of deploying mindBEAGLE, a portable, bedside EEG-based system, in the Intensive Care Unit in patients with disorders of consciousness (DOC) or locked-in syndrome (LIS); 2. To determine if mindBEAGLE neurophysiologic markers of cognitive function correlate with bedside behavioral assessments of consciousness; 3. To determine if mindBEAGLE neurophysiologic markers of cognitive function correlate with functional MRI (fMRI) and electroencephalography (EEG) biomarkers of consciousness; 4. To determine if mindBEAGLE can serve as an assistive communication device for people with LIS.
NCT02659228
In this study, the investigators explore anesthesia as a tool for providing further insight into the level of consciousness of individuals with a clinical diagnosis of unresponsive wakefulness syndrome (UWS), but who possess some neurophysiological signatures of conscious awareness. This group, who could potentially be conscious, will herein be referred to as the target population. Our goal is to assess whether or not neurological patterns of consciousness in the target population respond to anesthesia in a similar manner to neurologically compromised individuals with known consciousness (e.g. those in minimally conscious state (MCS). In healthy controls, propofol-induced unconsciousness results in an elimination of the mismatch negativity event-related brain potential (ERP) and a diminished directed connectivity. The investigators hypothesize that at doses well below those required for surgery, anesthesia will have similar effects on these neural patterns in neurologically compromised patients with the potential for conscious awareness, but will not affect these patterns in those who lack consciousness.