View clinical trials related to Persistent Vegetative State.
Filter by:To analyse the frequency of the consciousness behaviour response for patients with minimally conscious state of Coma Recovery Scale-Revised items, as well as the necessary items for obtaining higher accuracy. In addition, providing target behaviours for Coma Recovery Scale-Revised assessment of minimally conscious state diagnosis and evidence for the simplification of Coma Recovery Scale-Revised in the future.
The purpose of this study is to characterize and improve pain and nociception management in patients with disorders of consciousness (DOC). This project is divided into two phases, a first phase to evaluate pain level and a second phase which consist of a clinical trial to evalute pain medication efficacy. The main aim is to evaluate the use of the Nociception Coma Scale-Revised (NCS-R) and its cut-off score (i.e., 5) as an assessment and management tool to define guidelines for managing pain in patients with DOC. In this double-blind, placebo-controlled clinical study, we will evaluate the use of analgesic treatments in reducing pain in subacute/chronic patients. The project will also allow us to validate the NCS-R cut-off score defined previously.
This study evaluates the feasibility of an experimental protocol that combines advanced multi-modal imaging of the brain with clinical and behavioural scales to characterise the neural, behavioural, and clinical effects of transcranial direct current stimulation (tDCS) for rehabilitation in PDOC
Recently introduced hybrid PET/MR scanners provide the opportunity to measure simultaneously, and in direct spatial correspondence, both metabolic demand and functional activity of the brain, hence capturing complementary information on the brain's physiological state. Here we exploited PET/MR simultaneous imaging to explore the relationship between the metabolic information provided by resting-state fluorodeoxyglucose-PET (FDG-PET) and fMRI (rs-fMRI) in patients with disorders of consciousness.
The aim of this study was to investigate diagnostic accuracy of the vegetative and minimally conscious state: Clinical consensus versus standardized neurobehavioral assessment
The aim of this study was to investigate the relationship between behaviorally assessed consciousness levels and responsiveness to nociception in patients with disorders of consciousness (DOC)
Non-invasive brain stimulations techniques have recently shown promising results in patients with disorders of consciousness. Notably, a case reported improvement of level of consciousness using transcutaneous auricular vagal nerve stimulation in a patient in unresponsive wakefulness syndrome. Here we aim to assess the effects of transcutaneous auricular vagal nerve stimulation on post-coma patients with disorders of consciousness in a first randomized controlled trial. To measure these effects, behavioral (Coma recovery scale revised - CRS-R -primary outcome) and neuro-electrophysiological (electroencephalography - EEG - secondary outcome) data will be recorded in severely brain-injured patients with DOC.
Disorders of consciousness(DOC) is the most serious complications and has been widely paid attention to by the government. DOC patients cause large social and economic burden to our society for there has no effective cure so far. Spinal cord stimulation(SCS) for wake-promoting therapy has aroused scholars' attention and become a hot area recently. There was much debate about the effectiveness of SCS therapy, but because of the limitation of our understanding of consciousness and the uncertainty of parameters of the stimulation, So, to figure out the indications and effectiveness of neuromodulation therapy should be the first step, and finding individual treatment and parameter may have important implications for DOC patients.
The aim of this study is to investigate the effects of animal-assisted occupational therapy on patient's consciousness, measured via the achievement of predefined, patient-specific goals. 30 patients in a minimally conscious state will be included in this trial with randomized, controlled cross-over design. Patients will be randomized and allocated to either study arm 1 or 2 with an allocation ratio 1/1. In study arm 1, patients (N=15) receive three weeks of two AAT sessions per week followed by three weeks of two control sessions (TAU) per week. In study arm 2, patients (N=15) receive three weeks of two control sessions (TAU) per week followed by three weeks of two AAT sessions per week. Each session lasts 30 minutes. Goal attainment and secondary outcomes will be measured before the study start (pre-measurement, t0), at the end of the first 3 weeks therapy (post-measurement I, t1), at the start of the second 3 weeks (pre-measurement II, t2) as well as at the study end (post-measurement II, t3).
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.