Drug discovery today
-
Drug discovery today · Nov 2012
ReviewPromoting drug discovery by collaborative innovation: a novel risk- and reward-sharing partnership between the German Cancer Research Center and Bayer HealthCare.
As a result of the increasing cost pressure on healthcare systems, the depletion of easily addressable and well-validated target groups in drug development and the requirement of public research to contribute to innovative treatment paradigms, broad partnerships between industry and academia are becoming increasingly important. However, owing to different goals and drivers, hurdles have to be overcome to exploit the full potential of such alliances. The factors that need to be taken into account during set-up and management of such alliances and the result and impact all of this has on drug discovery have not been analyzed in a systematic manner until now. This will be the focus of this review, using the strategic alliance between the German Cancer Research Center and Bayer HealthCare as an example.
-
Drug discovery today · Nov 2012
What is the most important approach in current drug discovery: doing the right things or doing things right?
Doing the right things or doing things right: what is the most important focus for current drug discovery to secure delivery of new drugs of sustainable value to patients, healthcare professionals and healthcare providers? Some of the challenges faced today in drug discovery are addressed here: the relationship between R&D speed, cost and quality; how selection of performance metrics can affect the quality of the R&D output; the importance of leadership and management; how process orientation can affect, for example, creativity and innovation; the importance of selecting the right pharmacologic target and the right chemical lead; and why the use of drug-target kinetic and thermodynamic data to drive lead selection and lead optimization could increase success rates.
-
Drug discovery today · Sep 2012
ReviewFarnesoid X receptor targeting to treat nonalcoholic steatohepatitis.
Nonalcoholic fatty liver disease (NAFLD) is a highly prevalent chronic liver condition evolving in a proportion of patients into nonalcoholic steatohepatitis (NASH), an aggressive form of NAFLD associated with increased cardiovascular mortality and significant risk of progressive liver disease, including fibrosis, cirrhosis and hepatocellular carcinoma. At present, no specific therapies for NASH exist. In this review, we examine the evidence supporting activation of the farnesoid X receptor (FXR), a nuclear hormone receptor regulated by bile acids (BAs), for the treatment of NASH. We also discuss the potential of the semi-synthetic BA derivative obeticholic acid (OCA), a first-in-class FXR agonist, as a safe and effective drug to address this significant unmet medical need.
-
Drug discovery today · Aug 2012
ReviewTranslation of drug effects from experimental models of neuropathic pain and analgesia to humans.
Neuropathic pain research remains a challenging undertaking owing to: (i) the lack of understanding about the underlying disease processes; and (ii) poor predictive validity of the current models of evoked pain used for the screening of novel compounds. Common consensus is that experimental models replicate symptoms (i.e. have face validity but no construct validity). ⋯ In this paper we provide an overview of the pre-clinical models that can be used in conjunction with a model-based approach to facilitate the prediction of drug effects in humans. Our review strongly suggests that evidence of the concentration-effect relationship is necessary for translational purposes.
-
Drug discovery today · Aug 2012
Characteristics of rare disease marketing applications associated with FDA product approvals 2006-2010.
New drug and biologic product marketing applications submitted to FDA's Center for Drug Evaluation and Research (CDER) between 2006 and 2010 were analyzed to identify rare disease application characteristics associated with higher approval rates. The results show that approval rates were similar for rare and common disease applications. Larger company size, prior regulatory experience and priority review designation were associated with higher approval rates. The study findings show that rare disease product development is feasible, and increased interactions between product developers and FDA in early investigational phases can facilitate product development.