View clinical trials related to Hallucinations.
Filter by:Many individuals with schizophrenia struggle with auditory verbal hallucinations (AVHs). In some cases, these AVHs can be resistant to medication treatment. Previous research has found that transcranial direct current stimulation (tDCS) can be helpful in treating symptoms in individuals with other psychiatric disorders, such as depression. This study will assess if tDCS is effective in treating AVHs in individuals with schizophrenia. tDCS is a non-invasive form of brain stimulation which uses a weak current to temporarily excite or inhibit underlying cortical regions with small electrodes placed on the scalp. tDCS has been found to improve mental processes, including attention and memory function. In addition to examining the effect of tDCS on AVHs, this study will assess the effects of tDCS on mood as well as brain electrical activity with electroencephalogram (EEG) recordings. As an additional component, participants will be invited to participate in neuroimaging. Using magnetic resonance imaging (MRI), brain activity and structure will be examined before and after tDCS. tDCS will be administered twice daily for 5 consecutive days for a total of 10 sessions. These study findings will contribute to the understanding of the impact of tDCS on AVHs, and will also increase knowledge of sound and memory/cognitive processing in individuals with schizophrenia.
Schizophrenia is associated with long-lasting health, social and financial burden for patients, families, caregivers and society. According to the World Health Organization, this burdensome illness is one of the top 10 causes of disability in developed countries. The costs associated with hospitalization, lifelong treatment and loss of productivity lead to a great economic burden. In Canada, the total annual costs associated with schizophrenia are over $10 billion. The main reason for this heavy burden is that 25-30% of schizophrenia patients respond very poorly to antipsychotic medication. Moreover, psychotherapeutic treatment alternatives are very limited for this suffering population. This unmet clinical need requires innovation and action. Psychotherapeutic treatment alternatives such as Cognitive Behavior Therapy (CBT) are very limited and provide at best moderate results. Virtual reality (VR) opens new exciting avenues to treat this illness. With immersive VR, our team recently tested a novel psychotherapeutic intervention, Avatar Therapy (AT), where the therapist engages in a dialogue with the patient through a virtual representation of their distressing voice. This relational and experiential approach offers a unique opportunity to help patients gain control over their voice. The preliminary results of our randomized-controlled trial (RCT) pilot showed a large effect on auditory verbal hallucination for AT and a moderate effect for CBT. The main goal of the currently proposed RCT study will be to examine if AT is superior to CBT for the treatment of chronic auditory hallucinations in schizophrenia. As evidence-based therapeutic options are limited for this burdensome illness and provide only modest symptomatic relief, the current trial will contribute to the validation of a novel approach answering a fundamental clinical need. The demonstration of the superior efficacy of AT would be a great breakthrough and will open new avenues to clinical treatment.
This study will evaluate the effect of repetitive transcranial magnetic stimulation (rTMS) in schizophrenia with treatment resistant auditory verbal hallucination
Parkinson's disease is characterized not only by motor symptoms but also by psycho-behavioral symptoms including Visual Hallucinations (VH) and illusions (I), that are generally associated with a severe functional impairment and a bad prognosis for patients. Visual Hallucinations are defined by a visual perception without any real objet to perceive, whereas illusions are defined by a wrong perceptions of an object that is really present. In most of studies investigating the pathophysiology of VH in PD, no difference is made between VH and I, however different mechanisms could lead to the emergence of these two phenomenon, with different prognosis. Investigator hypothesize that illusions could be related to a visual impairment, maybe at the retinal level, known to be impaired in PD, whereas Visual hallucinations would be due to a more widespread impairment affecting higher levels visuo-perceptive and cognitive functions.
The potential of non-invasive Transcranial Magnetic Stimulation (TMS) as a therapeutic tool for improving schizophrenic symptoms, in particular resistant hallucinations, has been increasingly studied over the past decades. Several studies have demonstrated that low-frequency patterns of repetitive TMS (rTMS) applied over the left Temporoparietal Junction (TPJ), which are known to decrease local activity, significantly reduced auditory verbal hallucinations in schizophrenic patients. In spite of highly promising results, a high level of inter-individual variability in the responses to non-invasive brain stimulation treatments, and the fact that rTMS may prove ineffective in some patients, keep spurring controversy about the efficacy of these approaches (as currently performed), as well as about how to increase its efficacy and consistency. Accordingly, the objectives of this project are to better understand the impact of rTMS on the brains of patients with resistant auditory hallucinations, and to use this information not only to better understand this condition but to develop more efficient and consistent therapies. Thus, in this study, the investigators focus more specifically on resistant auditory hallucinations in schizophrenia, which is a common symptom in schizophrenic patients, and can be treated by rTMS. The investigators hypothesize that there is a baseline difference in anatomical and/or functional connectivity between responder and non-responder patients who are treated with rTMS. Therefore, our project will aim to determine some anatomical and functional connectivity markers of response to rTMS treatment in patients with schizophrenia
This randomised, double-blind, placebo-controlled trial will evaluate the efficacy of continuous apomorphine infusion compared to placebo in PD patients with visual hallucinations, inadequately controlled with clozapine and cholinesterase inhibitors.
Rationale: Hallucinations occur in many patients with different kinds of diseases, including psychiatric, neurological and perceptual impairment. The origin of these hallucinations is only partly understood. This prevents correct prediction of treatment response and hampers the development of new, more effective treatment strategies. Different subtypes of hallucinations resulting from different neuropathology may exist across diagnostic entities, and be responsive to different treatment strategies. Understanding the origin of these subtypes with use of fMRI and EEG can help to make rational treatment decisions on an individual basis and enhance the development of innovative treatment paradigms. Objective: The primary objective is to find specific abnormalities on resting state fMRI related to the pathophysiology of different subtypes of hallucinations. Secondary objectives are to find EEG connectivity measures that are related to the pathophysiology of different subtypes of hallucinations, reveal correlating patterns of EEG and fMRI that underlie the experience of hallucinations across different disorders, and to examine the frequency of spontaneous synchronized burst activations in auditory and visual cortices using fMRI. Study design: The investigators intend to examine neural correlates of hallucinations over different disorders using resting state EEG, fMRI and sMRI in an observational study. Study population: A total of 140 hallucinating patients will be included, 20 of each of the 7 different diagnostic groups. As a control group, 140 non-hallucinating patients with the same disorder of similar severity will be included. Main study parameters/endpoints: The main study endpoint is the difference in resting state correlates as measured with fMRI between hallucinating and non-hallucinating participants and between hallucinating individuals of different subtypes, namely: connectivity within the DMN and connectivity of the DMN to sensory cortices and the hippocampal-amygdala complex. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Participation in the study will entail an MRI scan of 40 minutes and an EEG measurement of 5 minutes. Total visit time, including preparations, will be approximately 2,5 hours. The risks associated with participation and the benefits to the individuals are negligible. The potential benefit to society in the future is considerable if the findings lead to optimization of treatment strategies and treatment response.
The present study aims to examine the efficacy of transcranial direct current stimulation on the severity of auditory hallucinations.
Psychotic symptoms (hallucinations and delusions) are present in several psychiatric and neurological disorders as well as in the general population. Effective treatment strategies for these symptoms in all patients are lacking and treatment-response can presently not be predicted. To date, the exact pathophysiological mechanism of these symptoms remains unknown. By investigating (subtypes) of hallucinations and delusions in all populations, a common pathway may be found, leading to more effective treatment options. Alternatively, different subtypes may be associated with different pathophysiological mechanisms.
Schizophrenia is a chronic, severe, and disabling brain disease. Auditory hallucinations are the most frequent symptoms with an incident of 50% to 70% in patients. Transcranial Magnetic Stimulation (TMS) can significantly reduce symptoms of schizophrenia. TMS is capable of inducing changes in the electrical activities of the brain in humans. The purpose of this trial is to study the use of TMS to decrease auditory hallucinations in schizophrenia.