Over the past decade, collaborative research efforts to support the discovery and development of medicines has increased dramatically. Last month, the National Institutes of Health and Eli Lilly and Company announced a new collaboration: they will generate a publicly available resource to profile the effects of thousands of approved and investigational medicines in a variety of advanced disease-relevant testing systems [1]. In-depth knowledge of the biological profiles of these medicines may enable researchers to better predict treatment outcomes, improve drug development, and lead to more specific and effective approaches.
NIH and Lilly Collaborate, Aim to Make Drug Development Pipelines More Productive
The Cancer Genome Atlas Identifies Distinct Subtypes of Deadly Brain Cancer That May Lead to New Treatment Strategies
The most common form of malignant brain cancer in adults, glioblastoma multiforme (GBM), is not a single disease but appears to be four distinct molecular subtypes, according to a study by the Cancer Genome Atlas (TCGA) Research Network. The researchers of this study also found that response to aggressive chemotherapy and radiation differed by subtype. Patients with one subtype treated with this strategy appeared to succumb to their disease at a rate approximately 50 percent slower than patients treated with less aggressive therapy. This effect was seen to a lesser degree in two of the subtypes and not at all in the fourth subtype.