Version 0.4.4 (18th March 2014)
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* Maintainer contact details changed
Version 0.4.3 (10th September 2013)
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* rjags can now be used instead of R2WinBUGS or BRugs
* Allows the 3+3 design to start at any dose level (a modified 3+3)
* Includes citation information for Journal of Statistical Software publication
Version 0.4.2 (19th March 2013)
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* Corrects bug in simulation studies that do not use exact.sim computation, whereby an error is returned if more than 100 simulations are performed.
* Restricts bcrm and Posterior.BRugs examples to Windows and Linux Operating Systems where method="BRugs" is used. Hence Mac version should now compile on CRAN.
Version 0.4.1 (24th October 2012)
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* New data argument allows specification of doses and toxicities of all previously recruited patients, and the sequential order in which they were entered into the trial. Arguments tox and notox in bcrm are now deprecated.
* The dose trajectory and observed toxicities from a single trial can now be plotted using the argument trajectory = TRUE inside plot.bcrm
Version 0.4 (18th September 2012)
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* Simulations now allow the chosen Bayesian design to be compared alongside a traditional 3+3 algorithmic design.
* Corrects an error where simulation trajectories were not being plotted when specifying the argument trajectories = TRUE inside plot.bcrm.sim
Version 0.3 (1st May 2012)
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* Stores posterior summaries after each step of an escalation, if a trial is conducted interactivey. These summaries are now returned in the "ndose" componenet of the bcrm object. The component "alpha" is now redundant and has been removed.
* Stopping rules have been added, allowing stopping to be based on a maximum sample size, the maximum number to be treated at the final MTD estimate, the precision of the MTD estimate, and a minumum sample size.
* Posterior summaries after each recruited cohort can now be plotted using the "each" argument of plot.bcrm.
* When simulating, operating characteristics are also now presented by true regions of toxicity risk.
* Initial search space for posterior quantiles limited to a grid of size 100
* Simulations now run faster, as they use information from identical previous simulations to choose next dose. This is only implemented if nsims<=1000, otherwise the computation time to search previous simulations becomes unmanageable.
* Plot and print commands now refer to actual dose labels when they have been given by the user
* Output from simulations can now be plotted as histograms using the function plot.bcrm.sim
Version 0.2 (9th February 2012)
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* Implementation of escalation based on posterior toxicity intervals using loss functions, as described in Neuenschwander et al, 2008.
* Fixed bug where posterior quantiles are occasionally incorrectly calculated using method="exact". This occurred because the space in which optimize searched for the quantile was sometimes too large and optimize did not find the correct minimum. The new release chooses the interval in which to search based on a preliminary grid search.
* Fixed problem with `file' argument, where only the last of the two plots was saved.
Version 0.1 (11th January 2012)
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* First release.