How some tools are already impacting patients
Medical decision-making is often more art than science, requiring physicians to exercise judgment in the face of complex factual circumstances. But now a few tools offer the opportunity to...
Apr, 01, 2011
The complexity and variability of aging itself, along with the fragmented nature of researchers’ current understanding of aging, call for tools that can help scientists dig through mounds of data to find often subtle connections.
Jeanne Louise Calment of Arles, France rode a bicycle until she was 100 years old. When she gave up smoking at age 117, her doctor suspected it was out of pride. (She couldn’t see well enough...
Apr, 01, 2008
They've gone from hype to backlash. Now it's time for reality: How microarrays are being used to benefit healthcare
When DNA microarray technology emerged more than a decade ago, it was met with unbridled enthusiasm. By allowing scientists to look at the expression of enormous numbers of genes in the genome...
Oct, 01, 2006
A virtual lab rat; simulated DNA; an artificial pancreas; & integrating mental health data
Several biomedical computing projects received multi-million dollar funding in the fall of 2011, including efforts to: simulate the cardiac physiology of the rat; build a state-of-the-art DNA...
Jan, 02, 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
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
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
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...
Sep, 01, 2011
Modelers are using recent gains in computational power to consider the complex interactions of hundreds or thousands of macromolecules at once--a necessary first step toward whole cell simulation
Molecules in cells behave like people in crowded subway cars. Because they can barely budge or stretch out without bumping into a neighbor, they move more slowly, smush themselves into more compact...
Apr, 01, 2011
A newly created molecular computer works in human cells and offers the flexibility of a general-purpose circuit. The advance, described in Nature Biotechnology in May, brings closer the eventual...
Oct, 01, 2007
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