ABSTRACT: Until now, much of the focus in cancer has been on biomarker discovery and generating lists of univariately significant genes, as well as epidemiological and clinical measures. These approaches, although significant on their own, are not effective for elucidating the synergistic qualities of the numerous components in complex diseases. These components do not act one at a time, but rather in concert with numerous others. A compelling need exists to develop analytically sound and computationally advanced methods that elucidate a more biologically meaningful understanding of the mechanisms of cancer initiation and progression by taking these interactions into account.We propose a novel algorithm, partDSA, for prediction when several variables jointly affect the outcome. In such settings, piecewise constant estimation provides an intuitive approach by elucidating interactions and correlation patterns in addition to main effects. As well as generating 'and' statements similar to previously described methods, partDSA explores and chooses the best among all possible 'or' statements. The immediate benefit of partDSA is the ability to build a parsimonious model with 'and' and 'or' conjunctions that account for the observed biological phenomena. Importantly, partDSA is capable of handling categorical and continuous explanatory variables and outcomes. We evaluate the effectiveness of partDSA in comparison to several adaptive algorithms in simulations; additionally, we perform several data analyses with publicly available data and introduce the implementation of partDSA as an R package.http://cran.r-project.org/web/packages/partDSA/index.htmlannette.molinaro@yale.eduSupplementary data are available at Bioinformatics online.