Rituximab Treatment for Psychosis And/or Obsessive Compulsive Disorder with Probable Immune System Involvement (Ra-P-OCD)

METHODOLOGY:

This study is planned as a placebo-controlled, interventional study of parallel groups with 40 participants. Patients will be randomized to either treatment-first arm with 500 mg Rituximab i.v. (infusion 1) at 0 and again at 4 months (infusion 2), or placebo-first arm, receiving NaCl-infusion at 0 and at 4 months. Main evaluation will take place at eight months. The study arms are switched after eight months, i.e. patients starting in the treatment-first arm will receive placebo (NaCl) infusions at 8 months (infusion 3) and 12 months (infusion 4), and patients in the placebo-first arm receive 500 mg-Rituximab infusions at these time points. Final evaluation is scheduled at 16 months. Before each infusion, all patients in the Rituximab and control groups are pre-treated with injection Solu-Medrol 125 mg, i.v., tablet Paracetamol 1000 mg, p.o. and tablet Cetirizin 10 mg, orally.

Patients will be monitored with psychiatric rating scales and blood samples at baseline and every four months. In addition, baseline (-1 months), main (8 months) and final evaluation (16 months) will encompass collection of CSF (lumbar puncture), psychologic testing and extended blood samples. Patient, nurse administering treatment and symptom evaluators are blinded to group randomization.

INVESTIGATIONAL PRODUCT, DOSAGE AND MODE OF ADMINISTRATION:

• Treatment: Rituximab (Roche), 500 mg, dissolved in 250 ml NaCl 9 mg/ml, administered intravenously twice with 4 months interval.
• Placebo: 250 ml NaCl 9 mg/ml, administered intravenously twice with 4 months interval.

Duration of treatment:

Patients are observed over the course of 16 months. Main evaluation is conducted after 8 months. Participants are randomized to either treatment-first (Rituximab infusion at 0 months and 4 months) or placebo-first (Rituximab infusion at 8 months and 12 months).

SITE MONITORING AND SOURCE DATA VERIFICATION

The Investigator(s)/institution(s) will permit study-related monitoring, audits, review and regulatory inspection(s), providing access to source data/hospital records. Sponsor verifies that each patient has consented in writing to direct access to the original source data/hospital records by the use of written patient information and signed Informed Consent.

In accordance with the principles of Good Clinical Practice (GCP), monitoring of the study will be arranged by the Sponsor. During the study, the Monitor will have regular contacts with the study site(s), including visits to ensure that the study is conducted and documented properly in compliance with the protocol, GCP and applicable regulatory requirements.

Prior to the start of the study, the monitor will review the protocol and CRFs with the investigator and his/her staff. The investigator will be visited by the monitor, who will check study procedures, including safety assessments, study medication handling, and data recording.

To assure the accuracy and completeness of the data recorded in the trial, the monitor will compare Case Report Forms (CRFs) with medical records and other relevant documentation during the on-site monitoring visits (source data verification, SDV). The monitor will have direct access to all source data according to International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH) GCP. Incorrect or missing entries into the CRFs will be queried and must be corrected. Any discrepancies of data will be documented and explained in the monitoring reports. Study monitoring will not jeopardize patient confidentiality.

The study center may also be subject to inspection by the Swedish Medical Products Agency (MPA). The Investigator and other responsible personnel must be available during the monitoring visits and a possible inspection, and should devote sufficient time to these processes.

DATA COLLECTION AND MANAGEMENT

Data management and handling of data will be conducted according to the study specific Data Management Plan with ICH guidelines and an assigned CRO's standard operating procedures (SOPs). An electronic CRF (eCRF) system will be used to capture data from the study. Data entry will be performed by the study site personnel. Validation and data queries will be handled by the CRO's Data Management Team. The data will be subjected to validation according to the CRO's SOPs in order to ensure accuracy in the collected CRF data.The CRF will have an audit trail with appropriate functionality for data capture, tracking and documentation of any queries or changes. Electronic signatures will be used to lock the data and identify the person entering or changing the data.

Before database closure a reconciliation will be performed between the Serious Adverse Events (SAEs) entered in the safety database and the study database. After database closure, the database will be exported as Statistical Analysis System (SAS®) data sets. Any discrepancies and additions from the process defined in the Data Management Plan, will be described in a study specific Data Management Report.

STATISTICAL ANALYSIS:

The trial comprises a fully blinded randomized part, up to and including the 8 month visit, and a follow-up part, with preserved blinding but where it is known that the patient has received Rituximab treatment either in the fully blinded part of the trial or in the follow-up part. The main treatment comparisons will be based on the fully blinded 8 months of the trial, analyzed as a parallel group trial as described below. Data from the follow-up part will be presented descriptively and will be used for explorative modelling of treatment response and duration.

ANALYSIS POPULATION:

The full analysis set (FAS) will consist of all randomized patients that received at least one dose of investigational treatment, and will be used for all analyses unless specified. The number of patients with available data for each outcome analysis will be tabulated. In baseline-adjusted analyses, patients that lack baseline data will be excluded.

DESCRIPTIVE STATISTICS:

Brief Psychiatric Rating Scale (BPRS) score over time, for both parts of the trial, will be described using time series plots of individual data and randomized treatment arm mean values. BPRS and BPRS linear change from baseline at each time point will be described by randomized treatment using dot plots, scatter plots with baseline value on the x-axis, and tables of mean, standard deviation, median, min, max and quartiles.

PRIMARY ANALYSIS:

The primary outcome, BPRS at 8 months, will primarily be analyzed using a linear model with randomized treatment and baseline BPRS as covariates, and presented as the mean difference between the treatment groups with 95% confidence interval (CI) and two-sided p-value. Primarily the analysis will be based on observed cases, which gives unbiased estimation under a mechanism with random missingness conditional on baseline BPRS and treatment arm.

SENSITIVITY ANALYSES:

• To address missing data,

  1. primary analysis with missing 8-month values imputed by the 4-month value when available, and the baseline value otherwise. Under a scenario of no increase in BPRS over time and drop-out mainly due to lack of effect, this analysis would be biased against superiority of the Rituximab treatment.
  2. analyses of a continuum of scenarios based on a model assuming a treatment group dependent missingness propensity estimated from the observed frequencies, and a treatment group dependent difference in baseline-adjusted mean BPRS between observed and missing outcomes. The results will be presented as contour plots of point estimates, lower and upper 95% CI limits, and 2-sided p-values, for each pair of treatment arm specific differences between observed and missing outcomes. The results will indicate what mean deviations from missing at random conditional on treatment and baseline BPRS would be necessary to affect the conclusions.

• To address model misspecification, supplemental comparison of linear change in BPRS from baseline between treatment groups using the using Wilcoxon's rank-sum test and the Hodges-Lehmann estimate of location change with 95% confidence interval. In addition, model assumptions will be assessed by residual plots. Deviations from assumptions are not assumed to increase the Type I error, but may affect the interpretation of the estimated treatment contrast.

• To address non-adherence and protocol deviations, supplemental analysis using the primary model, for patients with two doses of treatment and no major protocol deviations up to 8 months, as determined at data base lock before unblinding.

BPRS at four months will be analyzed using the same method as for the primary time point, including sensitivity analyses. The main purpose of the four-month measurement is exploration of time to response.

SECONDARY EFFICACY OUTCOMES:

All analyses will be performed without formal multiplicity adjustment, for observed cases.

CGI-S over time will be presented by individual time series plots, and for each visit by number and percentage of patients in each category, and of patients satisfying the criteria for response (at least 2-point reduction from baseline), partial response (a 1 point reduction from baseline), and remission (CGI-S score 1-3). The categorical outcome response/partial response/no response will be analysed using logistic regression with randomized treatment as the only factor and presented as the common odds ratio with 95% CI and 2-sided p-value, at 8 months (primary time point) and at 4 months. Remission at the same time points will be analysed using logistic regression and presented as odds ratios with 95% CI and 2-sided p-value.

World Health Organization Disability Assessment Schedule (WHODAS) results will be presented as domain scores based on item response theory based scoring, and total disability score. Domain and total scores over time will be described using individual time series plots and mean value plots by randomized treatment. Domain and total scores, and linear change from baseline scores, at each time point will be described by randomized treatment using dot plots, scatter plots with baseline value on the x-axis, and tables of mean, standard deviation, median, min, max and quartiles. Total disability score at 8 months (primary) and 4 months will be analysed using a linear model with randomized treatment and baseline score as covariates and presented as mean difference with 95% CI and 2-sided p-value.

Yale Brown Obsessive Compulsion Scale (Y-BOCS) results will be presented and analyzed in the same way as WHODAS disability score. In addition, the number and proportion of patients with score 15 or below will be presented and analyzed in the same way as remission defined by CGI-S.

Bush-Francis Catatonia Rating Scale (BFCRS) total score over time will be described using individual time series plots and mean value plots by randomized treatment. Domain and total scores, and linear change from baseline scores, at each time point will be described by randomized treatment using dot plots, scatter plots with baseline value on the x-axis, and tables of mean, standard deviation, median, min, max and quartiles.

Pittsburgh Sleep Quality Index (PSQI) global sum will be tabulated descriptively by randomized treatment for each time point, using mean, standard deviation, median, quartiles, min and max, and number and percentage of patients with global sum 5 or higher.

EuroQol-5D (EQ-5D) domain scores will be presented for each time point using descriptive frequency tables and stacked bar charts by randomized treatment. EQ-5D Visual Analogue Scale (VAS) scale scores will be presented for each time point using descriptive tables of mean, standard deviation, median, min, max and quartiles.

Mismatch Negativity (MMN) amplitude and latency will be measured as the most negative data point within the 80-130 ms latency window, post-stimulus onset and compared between time points.

Biomarkers over time will be presented descriptively using individual time series plots and plots of geometric mean values over time by randomized treatment, and for each visit scatter plots with baseline on the x-axis and tables of geometric mean, geometric coefficient of variation (CV), median, quartiles, min and max, based on values over the limit of quantification, and number of observations under the limit of quantification. For infusion safety markers, the number and proportion of patients with values outside normal will also be tabulated. Biomarker concentrations at 8 months (primary) and 4 months will be analysed using a linear model for the log-transformed biomarker with randomized treatment and log-transformed baseline biomarker as covariates, and presented as the geometric mean ratio with 95% CI and two-sided p-value.

DETERMINATION OF SAMPLE SIZE Within- and between-patient standard deviation was estimated to 7.1 and 6.7 points respectively, from five case series with in total 35 measurements pre- and post-rituximab treatment, using a linear mixed-effect model with random intercept and rituximab treatment as a fixed factor.

Power was estimated using simulation. Baseline and 8 months BPRS were simulated with a 7 point standard deviation (SD) normally distributed random variation both within and between patients (corresponding to a total SD=9.8 points for a single measurement), and a homogenous treatment effect, using R v. 3.3.1. 40 patients, 20 patients per group, would give 81% power to detect an 8 point adjusted mean difference in BPRS between the rituximab and placebo groups, and 89% power to detect a difference of 9 points. Reasonable power would be retained under 5% random drop-out, with 79% power to detect an 8 point difference and 87% power to detect a 9 point difference between the groups. The power to detect a 9 point difference would still be 85% with 10% random drop-out.