fixmodel_bin: Frequentist logistic regression model analysis for binary data adjusting for periods

List containing the following elements regarding the results of comparing arm to control:

• p-val - p-value (one-sided)

• treat_effect - estimated treatment effect in terms of the log-odds ratio

• lower_ci - lower limit of the (1-2*alpha)*100% confidence interval

• upper_ci - upper limit of the (1-2*alpha)*100% confidence interval

• reject_h0 - indicator of whether the null hypothesis was rejected or not (p_val < alpha)

• model - fitted model

The model-based analysis adjusts for the time effect by including the factor period (defined as a time interval bounded by any treatment arm entering or leaving the platform). The time is then modelled as a step-function with jumps at the beginning of each period. Denoting by \(y_j\) the response probability for patient \(j\), by \(k_j\) the arm patient \(j\) was allocated to, and by \(M\) the treatment arm under evaluation, the regression model is given by:

$$g(E(y_j)) = \eta_0 + \sum_{k \in \mathcal{K}_M} \theta_k \cdot I(k_j=k) + \sum_{s=2}^{S_M} \tau_s \cdot I(t_j \in T_{S_s})$$

where \(g(\cdot)\) denotes the logit link function and \(\eta_0\) is the log odds in the control arm in the first period; \(\theta_k\) represents the log odds ratio of treatment \(k\) and control for \(k\in\mathcal{K}_M\), where \(\mathcal{K}_M\) is the set of treatments that were active in the trial during periods prior or up to the time when the investigated treatment arm left the trial; \(\tau_s\) indicates the stepwise period effect in terms of the log odds ratio between periods 1 and \(s\) (\(s = 2, \ldots, S_M\)), where \(S_M\) denotes the period, in which the investigated treatment arm left the trial.

If the data consists of only one period (e.g. in case of a multi-arm trial), the period in not used as covariate.