Ontology, defined as "a theory of existence," has an important place in Western philosophy. It seeks to account for all phenomena in the universe.
In biomedical computation, however...
Jan, 01, 2006
The NCBCs legacy of human capital
In this issue of Biomedical Computation Review, we feature a look at the NIH Roadmap National Centers for Biomedical Computing (NCBC) program. The NCBC program was a response to the recommendations...
Oct, 19, 2012
They're more than just pretty pictures adorning office walls and presentation slides. Beamed into operating room computer monitors, they're guiding the scalpels of brain surgeons. Dancing...
Jan, 01, 2012
HAP-SAMPLE takes real data as the template for simulations
Trying to find the genetic causes of a human disease requires lots of data. These days, researchers scan the genomes of people who do and don’t have a particular disease and look for genome-...
Jan, 01, 2008
Supercomputers open up new horizons, offering the possibility of discovering new ways to understand life’s complexity
Their very names sound like dinosaurs. Teracomputers. Petacomputers. These are, in fact, the dinosaurs of the digital world—monstrous, hungry and powerful. But unlike the extinct...
Oct, 01, 2006
Incremental progress and measured successes
Personalized cancer therapy is now a reality. A handful of tumor-classifying tests and targeted drugs are in widespread clinical use; and early attempts are underway to match high-risk cancer...
Jan, 02, 2012
How increased coverage of the structure space is transforming the field of biology
When the human genome was completely sequenced in 2003, researchers were already pondering how biomedicine could make use of it. One hope was that the sequences would lead to a greater...
Jan, 01, 2010
How errors in data, software, and methodology can teach us how to do better
In 2006, a paper in Nature Medicine suggested a novel and potentially revolutionary method for predicting patient responses to cancer therapies using gene signatures. The finding piqued the interest...
Sep, 01, 2011
To understand biology—and provide appropriate medical care—scientists need to understand interactions across multiple scales. Hence the Physiome.
This is the reality of human biology: events span a 109 range in lengthscale (molecular to organismal) and a 1014 range in timescale (molecular movement to years). To understand this biology—...
Jun, 01, 2010
The National Institutes of Health are on a mission: To understand and tackle the problems of human health. To make that daunting problem approachable, 15 of the 20 institutes divvy up human health...
Oct, 05, 2012