It’s Not What You Know, but What You Don’t Know…
Bioinformatics and computational biology have told us a lot about biology—primarily that we know so little. Advances have led to many more unanswered questions, suggesting we know less and less...
Oct, 01, 2007
On Your Mark, Get Set, Build Infrastructure: The NCBC Launch

The first four National Centers for Biomedical Computing take off

WHY NATIONAL CENTERS? Four National Centers for Biomedical Computing were launched by the NIH in 2004 with $20 million in funding for each center over five years. The reason: We need to make...
Jun, 01, 2005
Dogs, Doses, and Devices: The FDA's Ambitious Plans for Computational Modeling

Computational modeling can help fill gaps in how we develop and review new drugs and devices

What role does computational modeling play at the United States Food and Drug Administration (FDA)?  If you ask Paul Watkins, MD, director of the Hamner—University of North Carolina...
devices, drug discovery, FDA, modeling
Sep, 01, 2011
Meet the Skeptics: Why Some Doubt Biomedical Models - and What it Takes to Win Them Over

Disentangling the different types of skeptics and what modelers can learn from each.

What are the telltale signs of a modeling talk at a biology conference? Just look for the sighs, shifting, and eye-rolling in the audience, says Donald C. Bolser, PhD, professor of physiological...
Jun, 05, 2012
How the Zebrafish Gets its Stripes (or Spots)

Simulating how cells form patterns.

Normal zebrafish have stripes, but mutant forms may display spots, blotches, or labyrinthine patterns. It’s a scenario that Rudyard Kipling might turn into a wonderful “just-so”...
Jul, 01, 2008
Mining Biomedical Literature: Using Computers to Extract Knowledge Nuggets

Researchers are not simply retrieving and repackaging what is already known, but are also deriving new knowledge by discovering connections that were previously unnoticed.

Not long ago, reading biomedical literature involved hours in the library combing through rows of dusty periodicals—not to mention pocketfuls of change for the copy machine. Now, although the...
Jul, 01, 2008
Visualization in Space and Time: Seamless Pipelines Now Available

Advances in visualization changing work flows for understanding molecular dynamics, tracking cell movements, and designing interventional procedures

The pathway from raw data to valuable visualization of molecules, cells or organs being simulated over time involves several potentially painstaking steps. Typically, researchers must generate a set...
atrial fibrillation, developmental biology, ePMV, patient-specific, visualization
Sep, 02, 2011
Biocomputation Startups: Where Does Value Lie?

An opportunity and a challenge

When discussing biocomputation startups, there’s one thing people agree on: These days, they don’t generate much excitement among venture capitalists.   “In the 1990s, there...
Apr, 01, 2007
Computational Biology Catches the Flu: Modeling the bug, the host, the world
The flu virus is an evolutionary marvel. Teams of experts design an appropriate flu vaccine annually just to keep up with the microbe’s ability to evade the human immune system. Multiple...
Jul, 01, 2006
Computing the Ravages of Time: Using Algorithms To Tackle Alzheimer’s Disease

Biomarker research, genetics, and imaging are all coming into play

In 1906, at a small medical meeting in Tübingen, Germany, physician Alois Alzheimer gave a now-famous presentation about a puzzling patient. At age 51, Auguste D.’s memory was failing...
Oct, 01, 2007