View clinical trials related to Bulimia Nervosa.
Filter by:The primary aim of this study is to study how Repetitive Transcranial Magnetic Stimulation (rTMS) tailored to specific anorexia nervosa (AN) or bulimia nervosa (BN) brain activation alterations will promote recovery and to study how inhibitory tDCS (Transcranial Direct Current Stimulation) will reduce symptoms of body image distortion in a second sample of AN and BN groups.
This study will augment an existing mobile application for individuals with eating disorders by developing adaptive, tailored content targeting remediation of cognitive distortions. The adaptive application will be deployed and assessed for efficacy relative to the standard product in a randomized controlled trial.
The investigators have developed a new integrated therapy, namely a Healthy Approach to weIght management and Food in Eating Disorders (HAPIFED). HAPIFED is an enhanced behavioral weight loss therapy integrated with CBT for the management of EDs. HAPIFED uses CBT to treat ED behaviors and body image distress, whilst simultaneously emphasize a healthy lifestyle, the role of food and physical activity in mood regulation, and revised but clinically meaningful goals for weight loss. The investigators propose a randomized controlled trial (RCT) that will compare HAPIFED to CBT-E in people with obesity and either BN or BED. The two main aims will be to reduce symptoms of ED and to improve weight management. The RCT will be conducted in Sydney and in São Paulo with a one year follow-up.
Treatments for bulimia nervosa (BN) have relatively high rates of nonremission and relapse, meaning that improving treatments is a high priority in this area. Rapid response to treatment -cessation of binge eating and vomiting symptoms within the first weeks of treatment - is a robust predictor of improved post-treatment outcomes and lower relapse rates, but no study has tried to facilitate rapid response as a means of improving treatment outcomes. The present study responds to this gap in the literature by testing a 4-session CBT-based individual intervention for rapid response (i.e., "CBT-RR"), designed to augment standard day hospital (DH) treatment for BN and Purging Disorder (PD) by focusing on strategies and skills for rapid symptom interruption. CBT-RR will be compared to a matched-intensity augmentative motivational interviewing (MI) intervention. Participants will be recruited from a hospital-based day program for eating disorders, and will be randomly assigned to one of the two conditions in addition to the DH as usual. participants will be assessed at pre-intervention, post-intervention, week 4 of DH, post-DH, and 6 months follow-up. It is hypothesized that compared to those who receive MI, patients who receive CBT-RR will be more likely to exhibit a rapid response to day hospital treatment (i.e., </= 3 binge eating and/or vomiting episodes in the first 4 weeks). It is further hypothesized that patients who receive CBT-RR will exhibit fewer binge eating and/or vomiting episodes at post-DH and at 6-month follow-up. Potential mediators and moderators of these hypothesized treatment effects will be examined on an exploratory basis, including self-efficacy, motivation, and hope (potential mediators), and emotion regulation, depression, cognitive psychopathology of eating disorders, and working alliance with the therapist (potential moderators).
This study aims to utilize emerging mobile application technology, as a tool for increasing the potency, accessibility, and efficacy of a guided self-help version of cognitive-behavioral therapy (CBT-GSH) for binge eating. The feasibility and efficacy of the adapted smartphone application created by Noom Inc., Noom Monitor, will be examined through a randomized control trial comparing CBT-GSH + APP with CBT-GSH conducted at the Mount Sinai School of Medicine's Eating and Weight Disorders Program. The investigators hypothesize that CBT-GSH with the addition of the Noom Monitor, will be significantly more acceptable, have greater uptake of self-monitoring, greater adherence to treatment, and greater reduction in objective binge episodes (OBEs) than standard CBT-GSH.
This research is being done to find out how effective Prazosin is in the treatment of bulimic patients experiencing distressing nightmares using subjective and objective measures.
Patients diagnosed with Binge Eating Disorder (BED) overeat food but, as opposed to patients with bulimia nervosa, they do not compensate for their increased food intake and therefore their body weight increases. It is hypothesized that the speed of eating has increased in BED and that body weight will decrease if the speed of eating is decreased. The speed of eating is measured using Mandometer, an eating disorder conditioning tool, class 2 device cleared by the FDA for the treatment of eating disorders. Mandometer is a scale connected to a computer, patients eat food from a plate on the scale and the computer stores the weight loss of the plate, thus recording the speed of eating. Patients decrease their speed of eating by following training curves on the computer screen while eating. The emergence of their own speed of eating on the screen makes this possible. Patients use Mandometer for lunch and dinner over one week at home to estimate their speed of eating and their food intake as the first step of clinical pratice. Mandometer is then programmed with how much and how quickly to eat and patients practice eating using Mandometer at home over the subsequent treatment. Data from 166 BED-patients using Mandometer at home and from a total of 354 patients who have been treated have been collected. 30 normal weight, healthy subjects will be recruited to test the hypothesis that their speed of eating is lower than that of the BED-patients. These control subjects will eat lunch and dinner using Mandometer at home over one week, but they will, obviously, not participate in treatment.
Bulimia nervosa (BN) is a serious mental illness characterized by massive food crises followed by anxiety and compensatory behaviours (vomiting more often). Recent data show an increasing prevalence and a serious prognosis, due to excess mortality by suicide but also somatic complications. Two types of treatments are validated : serotoninergic antidepressants (SSRI) and psychotherapy. Many clinical trials confirm the effectiveness of the SSRI. But many studies also emphasize the important proportion of non-responders to SSRI, few of them analyze the reasons for this non-answer. To better understand the mode of action of SSRI, we should analyse the serotonergic activity in the central nervous system in bulimia. Recently, specific brain 5HT1A serotonin receptor ligands ([18F] MPPF or [11 C] WAY-100635), were used in positron emission tomography (PET) to characterize the serotonergic abnormalities of bulimic patients. The ligand [18F] MPPF has the feature to be sensitive to the level of endogenous serotonin. A first pilot study using PET with [18F] MPPF realized between the University Hospital of Saint Etienne and Lyon CERMEP showed a diffuse increase of the binding potential of [18F] MPPF in bulimic patients, suggesting a decrease in serotonin activity. The brain regions affected were angular gyrus, medial frontal cortex, left insula, cingulate gyrus and orbitofrontal gyrus. These areas are involved in major bulimic symptoms (impulse, taste, instinct, anxiety and satiety). However, we noticed an interindividual heterogeneity of cortical binding of [18F] MPPF. In front of the heterogeneity in terms of efficacity of SSRI and brain serotoninergic activity, it seems necessary to continues investigations, to determine if there is a link between brain serotonin profile and responding to SSRI in bulimia nervosa.
Although 4.7% of adolescents suffer from symptoms of bulimia nervosa (BN), only 1/5 seek treatment. Hesitation to seek treatment is likely related to ego-syntonicity and fear of disclosing symptoms to parents and clinicians. Furthermore, the physical symptoms of BN often go unnoticed by parents and clinicians. In order to eliminate the barriers that prevent adolescents from seeking treatment, this study will offer anonymous access to online self-help cognitive behavioral therapy (CBT) for BN. Online CBT (traditional, non-anonymous delivery) has been found to be effective and acceptable treatment for adolescents with BN. Furthermore, in adults, this method has been found to be as effective as specialized treatments, and more cost efficient. To remain anonymous and accessible, the self-help approach in this study will be provided in a non-guided, or pure format (only online sessions). Studies support that a pure self-help methodology is as effective as a guided version. Although anonymity may improve accessibility, this study design could also pose challenges in areas such as recruitment, treatment completion and obtaining adequate informed consent. Therefore, before embarking on a larger randomized control trail, we would like to propose a small, non-controlled feasibility study to assess potential issues in these areas. Primary hypotheses: Recruitment: Based on communication with public health nurses in the high schools we plan to recruit from, we hypothesize that it is feasible to recruit 1-5 adolescents over a 4-month period from each of the 5 schools, and 1-5 from social media outlets such as Instagram, Twitter, Facebook for a total of 5 participants over a 4-month period. Treatment completion: Based on pervious studies of self-help for adolescent bulimia, we hypothesize that approximately 15% of participants will not complete any sessions, and many will only complete about half of the sessions. Informed consent: Based on information from large randomized control studies in the UK, we hypothesize that adolescents will be capable of providing online consent, and that we will be able to adequately obtain consent without verbally communicating with participants. Secondary hypothesis: We hypothesize a non-guided (pure) version of online CBT-BN offered in an anonymous manner will decrease BN symptoms after treatment completion, and at 3-month follow-up compared to baseline.
Introduction: The purpose of this research is to develop a new component for cognitive-behavioral treatment (CBT), empirically validated, for binge eating behavior in patients with bulimia nervosa (BN) and binge eating disorder (BED), by means of cue-exposure therapy (CET) with virtual reality. While CBT is an effective treatment for these eating disorders, an important percentage of patients do not improve despite treatment. It is necessary to explore how to enhance the effectivity of usual treatments with the incorporation of new technologies and procedures. The innovation of this investigation is based on the use of VR for cue-exposure therapy, which has been found effective with patients resistant to conventional treatments (CBT and pharmacological intervention), and seeks to enhance this efficacy by increasing possibilities of generalization and providing more useful tools to clinicians, diminishing the logistic complications of the exposure to real cues (food). Participants: 60 patients with a diagnosis of BN or BED according the DSM-5 who had been proposed for participation in the study by their referral mental health's professional after conducting unsuccessfully a first level treatment (CBT structured intervention) at the clinical sites involved will participate in the study. Procedure: Participants with active episodes of binge eating (and purging, in the case of BN) during the last 2 weeks of the structured intervention of CBT will be provided with detailed information about the study. All patients who agree to participate in the study and who sign the informed consent form will be randomly assigned to one of the two second-level treatment conditions: virtual reality based cue-exposure therapy (VR-CET) or additional cognitive-behavioral treatment (A-CBT). Both second-level treatment conditions consist of six 60-minute sessions that are held two times per week over a period of three weeks. In an interview setting, all of the participants will be administered several questionnaires (BN, DT and BD subscales of EDI-3, FCQ-T/S, and STAI-Y) and participants assigned to the VR-CET will also be exposed to various types of virtual foods in different virtual environments (kitchen, dining-room, bedroom, and café) where they will be asked about their food cravings and anxiety experienced in each situation to develop a proper exposure hierarchy according to the specific characteristics and needs of each patient.