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NCT07077135
This interventional study aims to assess the clinical efficacy of transcutaneous auricular vagal nerve stimulation (taVNS) against sham stimulation on the recovery of consciousness in patients with disorders of consciousness. The main question it aims to answer is: will taVNS improve patients' behavioral scores or will it produce an improvement in the diagnosed level of consciousness? Researchers will compare the results with non-stimulated unconscious patients to see if the re-gain of consciousness is faster in the treated group. Participants will undergo taVNS stimulation using the Parasym device or sham stimulation will be applied from the time of enrolment. Active stimulations will be carried out for 60 minutes twice daily during the acute phase and daily during the rehabilitation phase.
NCT05706831
The goal of this clinical trial is to evaluate the efficacy of a musical interventionand non-invasive brain stimulation in neurological patients. The main questions it aims to answer are: * to evaluate the residual neuroplastic processes in DOC state related to music exposure * to determine the putative modulation of the aforementioned processes and the clinical outcome of DOC patients by non-pharmacological strategies, i.e., electric (tDCS) and music stimulation * to evaluate the impact of this intervention on caregiver's burden and psychological distress. Participants will be randomly assigned to one of three different music-listening intervention groups. Primary outcomes will be clinical, that is based on the neurologist's observations of clinical improvement, and neurophysiological, collected pre-intervention, post-intervention and post-placebo.
NCT05929274
Background: Despite established evidence supporting the use of tDCS in the adult patient with disorders of consciousness, its use in paediatric patients with brain injury is still limited. Regarding the use of tDCS in paediatric patients with DoC, the scientific evidence still appears to be preliminary about the safety profile and requires further data before investigating efficacy on a broad scale. In fact, although the method has been shown to be safe in other clinical conditions, efficacy and tolerability in children with DoC may vary significantly depending on differences in activation threshold and the presence of underlying pathological electrical activity The implementation of clinical trials investigating the safety and tolerability of tDCS in paediatric patients with DoC now represents an essential first step for a future determination of the efficacy of this method in a population for which therapeutic options are currently extremely limited Objective: The study aim to verify the safety of tDCS treatment and to evaluate the effectiveness of stimulation of the left dorsolateral prefrontal cortex by tDCS in promoting improvement in the level of consciousness in paediatric patients with Disorders of Consciousness. Method: in this mono-center, randomised, double blind cross-over controlled pilot study, real or sham tDCS were applied to the left dorsolateral prefrontal (DLPF) cortex of paediatric patients with disorders of consciousness for two weeks, followed by two weeks of washout, then real or sham tDCS were applied to the left dorsolateral prefrontal (DLPF) cortex for other two weeks, followed by another two weeks of washout.
NCT05285124
The circadian rhythm characteristics of sleep cycle and neuroendocrine in patients with chronic disorder of consciousness show different degrees of disorder, and the relationship between this disorder and consciousness level is unclear.The researchers used HD-tDCS to treat patients with chronic disturbance of consciousness who intervened in circadian rhythm, and used a variety of methods such as EEG, fMRI, protein metabolism, ERP and micro-expression to explore the mechanism of improving the state of consciousness of HD-DCS and the relationship between circadian rhythm and patients' consciousness level
NCT04614792
In response to "conscious" EEG findings related to detectable cognitive function that reliably denote awareness in vegetative state patients, in the current study, we will assess the covert conscious EEG activity (as well as standard clinical overt measures) and neuroplasctic propensity (i.e., changes in EEG spectral power synchronization values following tDCS intervention) in vegetative-state patients receiving repetitive transcranial direct current stimulation (tDCS) treatment over frontal motor areas for a period of two weeks. In support of this approach, a recent tDCS study with vegetative and minimally conscious patients implied that a twenty minutes anodal stimulation (i.e., excitatory stimulation) to the left dorsolateral prefrontal cortex (DLPFC) significantly increased CRS-R scores versus sham (placebo: non-active stimulation) stimulation condition. It was noted that this tDCS effect was more pronounced in minimally conscious state patients versus vegetative state patients excluding effects of chronicity or etiology. Thus, the investigators in this study suggested that tDCS could be effective in improving cognitive recovery in severely brain-injured patients. However, their findings would benefit neural activation correlates that could support their conclusion regarding the effectiveness of this type of non-invasive intervention in promoting neurocognitive recovery. Most importantly, tDCS is safe for use in humans, has no adverse effects, is considered the most non-invasive transcranial stimulation method because it uses extremely weak currents (0.5 to 2 mA), and, is known to only temporarily shift the neuron's membrane potential towards excitation/inhibition. In regard to the method's potential to induce functional recovery in vegetative state patients, recent clinical studies indicate that tDCS could counteract the negative effects of brain damage by influencing neurophysiological mechanisms, and is likely to contribute to the "formation of functionally meaningful connections and the maintenance of existing pathways" .
NCT05479032
Introduction: Many patients on intermediate care (IMC) and intensive care units (ICU) suffer from reduced consciousness. In this situation, a treatment attempt with Amantadine is often undertaken. While clinicians report good results with this approach, the treatment is off-label and the scientific evidence limited. Study design: Monocenter, phase IIb, proof of concept, open-label pilot study. Methods: 50 intensive care patients with reduced consciousness not otherwise explained will be treated with Amantadine for 5 days. Vigilance is checked before, during and after treatment (on discharge and after 3 months) using electroencephalography (EEG) and established clinical tests, for instance Glasgow Coma Scale (GCS), Glasgow Outcome Scale - Extended (GOS-E), Coma Recovery Scale Revised (CRS-R) and others. Results: The primary endpoint "improvement of the GCS scale from screening to day 5 of at least 3 points" is analysed according to the Simon design. The secondary endpoints (GCS continuous scale, modified Rankins Scale (mRS), National Institute of Health Stroke Scale (NIHSS), GOS-E, CRS-R and Montreal Cognitive Assessment (MoCA) after 90 days, Richmond Agitation-Sedation Scale (RASS) and Intensive Care Delirium Screening Checklist (ICDSC) will be analysed by mixed models with time (categorically coded) as only factor including all measurements up to 3 months follow up. Discussion: The investigators aim to shed light on an established clinical practice without sufficient scientific evidence. The investigators are aware that the power of our study is limited by design (no control group, no blinding). However, if successful, this study may be the basis for a randomized controlled trial in the future.
NCT06083441
Early prediction of outcomes after acute brain injury (ABI) remains a major unsolved problem. Presently, physicians make predictions using clinical examination, traditional scoring systems, and statistical models. In this study, we will use a novel technique, "SeeMe," to objectively assess the level of consciousness in patients suffering from comas following ABI. SeeMe is a program that quantifies total facial motion over time and compares the response after a spoken command (i.e. "open your eyes") to a pre-stimulus baseline.
NCT06012357
The goal of this observational study is to compare Nociception Coma Scale-Revised Recorded (NCS-R) scores obtained with the standard pressure on fingernail bed (standard stimulus, SS) versus other personalized painful stimuli (PS), in non-communicative patients with disorders of consciousness (DoC), as indicated by professionals and caregivers involved in their care and rehabilitation. The study aims also to establish possible correlations between NCS-R and Coma Recovery Scale-Revised (CRS-R.) The main question : an integrated patient-centered approach for assessment of the physical pain, in which clinical measures and behavioral observations will be integrated, to understand and manage the pain intensity, may improve treatment and rehabilitation outcome. Specifically, a new version of NCS-R, adapted with PS, may produce more intentional and specific responses to pain-inducing maneuvers. Investigating pain perception in non-communicative patients, through recognition of a personalized source of nociception and pain, may avoid non specific, useless and harmful noxious tests (as with standard pain scales) and may provide tools for revealing nociception even in the lack of any response to standard clinical evaluation. Question 1: the superiority of personalized painful stimulus a standard painful stimulation in nin communicative patients. Question 2: the parallel recovery of painful stimuli responsiveness and consciousness Participants will Responsiveness and pain perception will be assessed respectively with the CRS-R and the NCS-R. Pain responses will be assessed by means of standard stimulus (NCS-R-SS, as used in the CRS-R) and personalized stimulation (NCS-R-PS), at admission and discharge. CRS-R will be administered within the first month after admission, at least 5 times in different days, choosing the highest score as reference and repeated during recovery of consciousness or discharge. After informed consent by patient's legal representative or the primary caregiver, for the purpose of the study, caregivers (including relatives, nurses, therapists, physicians) will be asked to record all manoeuvres they feel are associated with potential pain, with a window of observation of the rehabilitation and nursing staff of around one week to identify the personalized painful stimulus (about the second week after admission at the rehabilitation ward). Amongst them, the manoeuvres that consistently over time induced the most motor/behaviour responses suggestive of pain perception, reported at least by 2 members of the rehabilitation staff or by one of them and one caregiver, will be chosen as the personalized stimulus (PS). NCS-R with standard stimulus (NCS-R-SS) and with personalized stimulus (NCS-R-PS), will be recorded within 30 days after admission, alternating the order of the 2 painful stimulations; CRS-R will be recorded accordingly, in parallel to NCS-R-SS and NCS-R-PS and will be blindly recorded, at the same time, by two different rehabilitation staff members, to assess inter-rater reliability, whereas two of them will repeat both NCS-R\_SS and NCS-R-PS during the same week to assess intra-rater reliability of both NCS-R-SS and NCS-R-PS, with an interval of at least 6 hours from the last pain killer or anti-spastic drugs administration, including GABAergic, anti-inflammatory drugs or opiates. Both CRS-R and NCS-R (SS and PS) will be repeated 1 month and 3 months after the first assessment with the same procedures of the first time.
NCT05833568
This study first aims to validate the feasibility of a multimodal 5-day 20-minute tACS protocol in subacute brain-injured patients with a disorder of consciousness during their ICU stay, and conduct a clinical pilot study (validation phase). Upon completion of this validation phase and according to obtained results, a randomized clinical trial will be conducted to compare the effects of the 5-day active 10Hz-tACS protocol with a 5-day sham-tACS protocol on brain dynamics modulation. This study will also compare intervention conditions on recovery of consciousness, cognition and function using short-term and long-term measurements.
NCT05819177
Background: The Coma Recovery Scale-Revised (CRS-R) is the most recommended instrument to examine the neurobehavioral condition of individuals with disorders of consciousness (DOCs). Different studies have investigated the prognostic value of the information provided by the conventional administration of the scale, while other measures derived from the scale have been proposed to improve the prognosis of DOCs. However, the heterogeneity of the data used in the different studies prevents a reliable comparison of the identified predictors and measures. Objectives: This study investigates which information derived from the CRS-R provides the most reliable prediction of both the neurobehavioral state and recovery of consciousness at the discharge of a long-term neurorehabilitation program. Methods: The clinical records of 171 individuals with DOCs admitted to an inpatient neurorehabilitation program for a minimum of 3 months were used to implement machine learning classifiers that were trained to predict the neurobehavioral state and recovery of consciousness at discharge.
NCT05558930
Previous studies showed the excitatory effect of cerebellar transcranial magnetic stimulation(TMS) on motor cortex.Investigator evaluate the effects of bilateral cerebellar TMS on Coma Recovery Scale-Revised (CRS-R) scores in patients with disorders of consciousness(DOC) in a randomized, double-blinded, sham-controlled, crossover experimental design.
NCT04164680
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.
NCT03809936
To date, several studies have focused on the use of transcranial direct current stimulation(tDCS) in patients with impaired consciousness.However,its therapeutic effects have been variously documented.So,in this study ,investigators explore the effects of tDCS.
NCT03623828
Background: Patients who survive severe brain injury may develop chronic disorders of consciousness. Treating these patients to improve recovery is extremely challenging because of scarce and inefficient therapeutical options. Among pharmacological treatments, apomorphine, a potent direct dopamine agonist, has exhibited promising behavioral effects, but its true efficacy and its mechanism remains unknown. This pilot study aims to verify the effects of apomorphine subcutaneous infusion in patients with disorders of consciousness, investigate the neural networks targeted by this treatment and evaluate the feasibility of a larger double-blind randomized placebo-controlled trial. Methods/design: This study is a prospective open-label pilot clinical trial. Six patients diagnosed with disorders of consciousness will be included to receive a 4-weeks regimen of daily subcutaneous infusions of apomorphine hydrochloride. Patients will be monitored for four weeks before the initiation of the therapy, closely during treatment and they will undergo a 4-weeks inpatient follow-up after washout, as well as a two-year long-term remote follow-up. Shortly before and after the treatment regimen, the subjects will receive a multimodal assessment battery including neuroimaging exams. Primary outcome will be determined as behavioral response to treatment as measured by changes of diagnosis using the Coma Recovery Scale - Revised (CRS-R), while secondary outcome measures will include the Nociception Coma Scale - Revised (NCS-R, circadian rhythm modifications using actimetry, core body temperature recording and night electroencephalography (EEG), positron emission tomography (PET), resting-state high-density EEG and functional magnetic resonance imaging (fMRI). The Glasgow Outcome Scale - Extended (GOS-E) and a phone-adapted version of the CRS-R will be used for long-term follow-up. Statistical analyses will focus on the detection of changes induced by apomorphine treatment at the individual level (comparing data before and after treatment) and at the group level (comparing responders with non-responders). Response to treatment will be measured at four different levels: 1. behavioral response (CRS-R, NCS-E, GOS-E), 2. brain metabolism (PET), 3. network connectivity (resting-state fMRI and high-density EEG) and 4. Circadian rhythm changes (actimetry, body temperature, night EEG). Discussion: Apomorphine is a promising and safe candidate for the treatment of disorders of consciousness but its efficacy, the profile of the responding population and its underlying mechanism remain to be determined. This pilot study will provide unprecedented data that will allow to investigate the response to apomorphine using multimodal methods and shed new light on the brain networks targeted by this drug in terms of metabolism, functional connectivity and behavioral response. The investigators aim to better define the phenotype of potential responders to identify them more easily and develop personalized patient management. This preliminary study will lay ground for a subsequent larger-scale placebo-controlled double-blind trial which will provide quantitative data on effect size controlled for spontaneous recovery.
NCT04833543
Mobilization, specifically verticalization, has been shown to play a role in enhancing consciousness. Vestibular stimulation has the potential to influence the neural substrate of consciousness, but this modality has not been thoroughly explored. The primary aim of this study is to compare the influence of verticalization with and without vestibular input on level of consciousness in patients experiencing disorders of consciousness (DoC).
NCT04137497
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)
NCT04010838
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.
NCT03502837
Disentangling the vegetative state from the minimally conscious state is often difficult when relying only on behavioral observation. In this study, the investigators explored a new event-related potential paradigm as an alternative method for the detection of voluntary brain activity and cognitive abilities in the patients with disorders of consciousness.
NCT03385291
In recent years, promoting wakening attempts in patients with disorders of consciousness are increasing, but there are a lack of objective indicators to evaluate the efficacy and further researches on the brain mechanism during the wakening processing. So, the study first assessed the cerebral response during emotional acoustic stimuli with quantitative EEG and ERP(Event-related potential), and next, the investigators explored the relationship between brain activation and patients' recovery.