View clinical trials related to Bipolar Disorder.
Filter by:This is a sequential multiple assignment randomized trial for adults (ages > 18) with a bipolar disorder type 1 diagnosis currently experiencing a depressive episode. It is a randomized pragmatic trial that will compare four commonly prescribed treatments for bipolar depression, which includes three FDA-approved medications (Cariprazine, Quetiapine and Lurasidone) and one antipsychotic/antidepressant combination (Aripiprazole/Escitalopram).
The goal of this clinical trial is to learn if a ketone drink can improve signs and symptoms of patients with a schizophrenia-spectrum disorder (SSD), or a bipolar-spectrum disorder (BD). The main questions it aims to answer are: Does a ketone drink improve information processing in patients with SSD/BD? Other questions it aims to answer are: Does a ketone drink improve cognitive functioning in patients with SSD/BD? Does a ketone drink improve metabolism and inflammation in patients with SSD/BD? Research will compare the effects of the ketone drink with that of an isocaloric carbohydrate drink in the same patients ('cross-over'). Participants will: 1. drink a ketone drink and (after a wash-out period) an isocaloric control drink; after each drink: - EEG to determine information-processing parameters (PPI and P300) - cognitive tests - visual analog scale of mood, energy levels, ability to focus - indirect calorimetry to determine use of energy substrate - blood draws 2. for 5 consecutive days: - wear a continuous glucose monitor (CGM) - wear a non-invasive passive sweat biomarker sensor (EnLiSense device) - register a diet and nicotine diary - saliva sampling (max. 4x/day, only on both intervention days)
The purpose of this study is to evaluate the long-term safety and tolerability of BHV-7000 in subjects with bipolar I disorder.
The goal of this interventional study is to learn if accelerated Intermittent Theta Burst Stimulation can improve symptoms of 30 participants with Unipolar depression in higher manner than symptoms of 30 participants with bipolar depression
The goal of this clinical trial is to examine if it is feasible to randomly assign people into two groups and participate in Lifestyle MIND (Mental Illness and/N' Diabetes) at two different times. Lifestyle MIND is a diabetes lifestyle intervention recently developed for people with serious mental illness (SMI). It is known to be helpful for people with SMI who complete it, but the investigators do not know the effect in comparison to those who do not participate in it. The main questions it aims to answer are: - Does Lifestyle MIND improve diabetes control among people with SMI? - Will the effect of Lifestyle MIND be sustained 10 weeks after program completion? - From the provider's perspective, what are the barriers of achieving optimal diabetes treatment outcomes for patients with SMI? Researchers will compare outcomes of participants in the intervention with those in the wait-list control arm, to see if there will be significant differences in blood glucose level, compliance of diabetes self-management, time staying active, number of emergency department (ED) visits and psychiatric hospitalization, and subjective well-being.
Intermittent and continuous theta-burst stimulation (iTBS and cTBS respectively) are the newer modalities of transcranial magnetic stimulation with documented efficacy in treatment of depressed mood but with conflicting results regarding their efficacy in treatment of other symptoms of depression such as insomnia, daytime sleepiness and fatigue. This study will investigate the efficacy of iTBS over the left dorsolateral prefrontal cortex (DLPFC) and cTBS over the right DLPFC, compared to sham stimulation, in treatment of insomnia, daytime sleepiness and fatigue in depression.
The purpose of this trial is to determine if intermittent theta-burst stimulation (iTBS) can reduce the symptoms of depression in treatment-resistant bipolar disorder. To do this, some of the participants in this study will receive treatment with active iTBS stimulation, while others will receive sham iTBS stimulation. Participants will come for 30 days of either active iTBS or sham iTBS, with a 6-week follow-up period. Symptoms of depression (for determining treatment efficacy) and mania (for determining treatment safety) will be assessed using the 17-item Hamilton Rating Scale for Depression (HRSD-17) and the Young Mania Rating Scale (YMRS) every five treatments during the treatment course, and at 1 week and 6 week after treatment completion.
Depressed mood is the main symptom of depression, but other symptoms like cognitive impairment, anhedonia or sleep disorders may also contribute to patients suffering and are difficult to treat. rTMS is a relatively novel treatment option, whose therapeutic potential is still investigated and optimized. The aim of this study is to assess the effect of rTMS applied over two stimulation sites on cognitive impairment, anhedonia and sleep disorders in depression.
Poor sleep quality is common in neuropsychiatric conditions and some of the problems associated with poor sleep at night may be due to medication side effects or reduced efficacy of certain treatments. Poor sleep quality has been implicated in cognitive impairments, with the sleep quality to cognition association so strong that specialized assessments have been developed to examine the subjective association between poor nighttime sleep and daytime cognitive impairment. Computerized cognitive training (CCT) is a training procedure designed to build cognitive skills, with a goal of improvement of functional outcomes. CCT is also a learning-based approach and previous studies have shown that successful CCT interventions lead to changes in brain circuitry. It is also known, however, that many cases who are treated with CCT fail to make treatment-related gains. Recent studies have suggested that this may be associated with failures to engage in the training procedures, which could be related to sleep related impairments. Increased anticholinergic load can also substantially disrupt the process of training related gains directly. Antihistaminergic effects, common to many antidepressant and antipsychotic medications, can lead to daytime sedation and sleepiness, which both interferes with treatment but also interferes with nighttime sleep as well In previous clinical trials, Lurasidone was associated with reductions in sleepiness and with cognitive gains that exceeded practice effects. One viable hypothesis is that Lurasidone has both direct beneficial effects on cognition and substantial indirect benefits, due to the lack of histamine receptor occupancy, lack of anticholinergic effects, and direct promotion of positive nighttime sleep outcomes. Thus, a broad-spectrum naturalistic comparison of Lurasidone-treated patients with patients treated with other medications is proposed. This would include examining the level of engagement in CCT treatment, measurement of CCT training gains, and relating engagement and training gains with concurrent sleep quality, measured by actigraphy.
The objective of this study protocol is to test whether intermittent theta-burst transcranial magnetic stimulation (iTBS-TMS) to the inferior parietal lobule (IPL) can strengthen functional connectivity with a key region in emotion regulation (ER) neurocircuitry (anterior insula, AI) and improve performance on ER-related tasks in patients with bipolar disorder. Individual IPL sites for stimulation will be identified through baseline, pre-TMS functional magnetic resonance imaging (fMRI) scans. Patient-specific IPL subregions showing positive functional connectivity with the anterior insula and falling within the patient-specific frontoparietal control network will be used as individualized target sites for TMS stimulation. Patients will be randomized to receive 24 sessions of active versus sham iTBS to patient-specific IPL targets (6 sessions/day, 4 days, 43,200 pulses total). Post-iTBS resting-state and task-based fMRI scans will be acquired 3 days after the final day of iTBS administration (Day 4) following identical procedures as baseline. Effects of iTBS-TMS on ER will be evaluated by comparing pre-TMS versus post-TMS functional connectivity and behavior during performance on ER tasks.