fixmodel_cal_bin: Frequentist logistic regression model analysis for binary data adjusting for calendar time units

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 calendar time unit (defined as time units of fixed length, defined by ùnit_size). The time is then modelled as a step-function with jumps at the beginning of each calendar time unit. 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:

$$g(E(y_j)) = \eta_0 + \sum_{k \in \mathcal{K}_M} \theta_k \cdot I(k_j=k) + \sum_{c=2}^{C_M} \tau_c \cdot I(t_j \in T_{C_c})$$

where \(g(\cdot)\) denotes the logit link function and \(\eta_0\) is the log odds in the control arm in the first calendar time unit; \(\theta_k\) 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 calendar time units prior or up to the time when the investigated treatment arm left the trial; \(\tau_c\) indicates the stepwise calendar time effect in terms of the log odds ratio between calendar time units 1 and \(c\) (\(c = 2, \ldots, C_M\)), where \(C_M\) denotes the calendar time unit, in which the investigated treatment arm left the trial.

If the data consists of only one calendar time unit, the calendar time unit in not used as covariate.