Active clinical trials for "Persistent Vegetative State"

Previous studies showed that anodal transcranial direct current stimulation (tDCS) applied to the left dorsolateral prefrontal (DLPF) cortex transiently improves performance of memory and attention. Investigator assessed the effects of left DLPF-tDCS on Coma Recovery Scale-Revised (CRS-R) scores in severely brain damaged patients with disorders of consciousness in a double-blind sham-controlled experimental design.

Chronic post-coma consciousness impairment is a severe handicap. Preliminary studies suggest that deep brain stimulation of the thalamic-tegmental reticular system could improve consciousness disorders, and facilitate the emergence of conscious behavior. The aim of this protocol is to study the effects of deep brain stimulation on conscious behavior, using a patient-based anatomic mapping for stereotactic surgery, and the Coma Recovery Scale-Revised (CRS-R) as clinical assessment criterion.

In this study researchers will apply transcranial direct current stimulation (tDCS) for 5 consecutive days in chronic patients in minimally conscious state (MCS). 2 sessions of 5 days of stimulation will be realized, one anodal and one sham. After each stimulation, behavioral improvement will be assessed with the Coma Recovery Scale Revised (CRS-R). A final assessment will be done one week after the end of the sessions to assess the long term effect of the tDCS.

Previous studies showed that transcranial direct current stimulation (tDCS) transiently improves performance of motor function in stroke patients, as well as decrease muscle hypertonia. In severely brain injured patients with disorders of consciousness (DOC), a single stimulation over the left dorsolateral prefrontal cortex has shown to improve patients' sign of consciousness. Nevertheless, other brain areas could be stimulated in order to manage other symptoms occurring in this population of patients, such as muscle hypertonia. In this study, investigators will assess the effects of bilateral fronto-central tDCS on spasticity as measured with the Modified Ashworth Scale (MAS) and on the Coma Recovery Scale-Revised (CRS-R) scores in patients with DOC in a double-blind sham-controlled experimental design.

Non-invasive brain stimulations techniques have recently shown promising results in patients with disorders. Notably, transcranial direct current stimulation (tDCS) applied over the left dorsolateral prefrontal cortex has proved to be effective in improving signs of consciousness in about 50% of patients in MCS either after a single stimulation or after repeated sessions. However, brain mechanisms underlying tDCS effects remain poorly understood. Here we aim to assess the effects of prefrontal tDCS on neurophysiological (i.e., electroencephalography - EEG - primary outcome) and behavioral (secondary outcome) measures in severely brain-injured patients with DOC.

Acquired brain lesions (GCLA) represent one of the most important cause of disability and mortality during the pediatric age, also in the western Countries. The important medical progresses of the last decade in the medical field have increased the percentages of survival, also in the most severe clinical pictures. On the other hand, a brain lesion reported in the first years of life presents with a more dramatic impact on the cognitive and neurological development of the patients and it can significantly interfere with the same quality of their life. Recent studies suggest that a brain damage in this stage of the life is related to more persistent sequelae in comparison of the same lesion reported by an adult patient, because of the neurological immaturity at the moment of the insult. Furthermore, in most cases, the brain lesion is related not only to motor and sensorial deficits but also to very important behavioral and cognitive problems, that can arise immediately after the acute phase, or also several years after the pathological event.

Previous studies showed that anodal transcranial direct current stimulation (tDCS) transiently improves performance of memory and attention. In severely brain injured patients with disorders of consciousness (DOC), a single stimulation over the left dorsolateral prefrontal cortex has shown to improve patients' sign of consciousness. Nevertheless, other brain areas could be stimulated in order to increase the number of responders. In this study, investigators will assess the effects of bilateral fronto-parietal tDCS on Coma Recovery Scale-Revised (CRS-R) scores in patients with DOC in a double-blind sham-controlled experimental design.

The purpose of the study is to determine whether familiar vocal stimulation, provided during coma recovery, improves outcomes for persons who are unconscious after severe TBI. The primary hypothesis is that unconscious persons who receive standard rehabilitation (SR) plus a high-dose of Familiar Voice stimulation (FVs) compared to unconscious persons who receive SR plus a sham stimulation (Sham Group) will demonstrate: Significantly more neurobehavioral functioning post-intervention compared to pre-intervention. Using Functional Magnetic Resonance Imaging (fMRI), significantly higher average measures of volumetric activity in the whole brain, middle temporal gyrus bilaterally, primary auditory area, bilateral pre-frontal cortex, hippocampus and/or the cerebellum post-intervention compared to pre-intervention.

This randomized, open clinical trial sought to compare the use of Midazolam and Dexmedetomidine during surgery in patients under regional anesthesia. The primary objective was to determine the superiority of either drug during the intraoperative period regarding: 1- Depth of sedation and 2- incidence of complications. Secondary objectives included the determination of superiority regarding the postoperative period. For that, patients were randomized into two groups and sedated with either Midazolam or Dexmedetomidine.

Electroencephalogram/event-related potentials (EEG/ERP) data will be collected from 50 participants in coma or other disorder of consciousness (DOC; i.e., Unresponsive Wakefulness Syndrome [UWS] or Minimally Conscious State [MCS]), clinically diagnosed using the Glasgow Coma Scale (GCS). For coma patients, EEG recordings will be conducted for up to 24 consecutive hours at a maximum of 5 timepoints, spanning 30 days from the date of recruitment, to track participants' clinical state. For DOC patients, there will be an initial EEG recording up to 24 hours, with possible subsequent weekly recordings up to 2 hours. An additional dataset from 40 healthy controls will be collected, each spanning up to a 12-hour recording period in order to formulate a baseline. Collected data are to form the basis for automatic analysis and detection of ERP components in DOC, using a machine learning paradigm. Salient features (i.e., biomarkers) extracted from the ERPs and resting-state EEG will be identified and combined in an optimal fashion to give an accurate indicator of prognosis.