Whether it's a mug full of fresh-brewed coffee, a cup of hot tea or a can of soda, consuming caffeine is the energy boost of choice for millions who want to wake up or stay up. Now, researchers at the Johns Hopkins Univ. have found another use for the popular stimulant: memory enhancer.
Researchers have identified a protein that causes loss of function in immune cells combating HIV...
Researchers at Johns Hopkins Univ. have succeeded in making flattened, football-shaped...
When a beating heart slips into an irregular, life-threatening rhythm, the treatment...
Scientists in the new but fast-growing field of computational genomics are facing a dilemma. These researchers have begun to assemble the chemical blueprints of the DNA found in humans, animals, plants and microbes. But a flood of unassembled genetic data is being produced much faster than current computers can turn it into useful information, two scholars in the field are warning.
When a solar flare filled with charged particles erupts from the sun, its magnetic fields sometimes break a widely accepted rule of physics. The flux-freezing theorem dictates that the magnetic lines of force should flow away in lock-step with the particles, whole and unbroken. Instead, the lines sometimes break apart and quickly reconnect in a way that has mystified astrophysicists.
Surgical robots could make some types of surgery safer and more effective, but proving that the software controlling these machines works as intended is problematic. Researchers at Carnegie Mellon University and Johns Hopkins University have demonstrated that methods for reliably detecting software bugs and ultimately verifying software safety can be applied successfully to this breed of robot.
Sounding like something out of a comic book, superatoms are not only an enticing idea, but experiments have confirmed they exist. Scientists at Virginia Commonwealth University have collaborated with scientists from Johns Hopkins University to synthesize the first magnetic superatoms.
Engineers have recently developed a portable mapping system—carried in a backpack—that can be used to automatically create annotated physical maps of locations where GPS is not available, such as in underground areas and on ships. The system improves upon algorithms once developed for robots—which are not practical for all environments—and has a built-in allowance for normal human movement, like walking.
A new online database combining symptoms, family history and genetic sequencing information is speeding the search for diseases caused by a single rogue gene. As described in an article in the May issue of Human Mutation, the database, known as PhenoDB, enables any clinician to document cases of unusual genetic diseases for analysis by researchers at the Johns Hopkins University School of Medicine or the Baylor College of Medicine.
Researchers at Johns Hopkins University have devised a way to detect whether cells previously transplanted into a living animal are alive or dead, an innovation they say is likely to speed the development of cell replacement therapies for conditions such as liver failure and type 1 diabetes.
Researchers from the NIST Center for Nanoscale Science and Technology and Johns Hopkins University have developed a technique to reliably manipulate hundreds of individual micrometer-sized colloid particles to create crystals with controlled dimensions. The accomplishment is an important milestone for understanding how to direct and control the assembly of microscale and nanoscale objects for nanomanufacturing applications.
Johns Hopkins Medicine researchers have succeeded in teaching computers how to identify commonalities in DNA sequences known to regulate gene activity, and to then use those commonalities to predict other regulatory regions throughout the genome. The tool is expected to help scientists better understand disease risk and cell development.
Troponin I, found exclusively in heart muscle, is already used as the gold-standard marker in blood tests to diagnose heart attacks, but the new findings by Johns Hopkins University researchers reveal why and how the same protein is also altered in heart muscle malfunctions that lead to heart failure. Scientists have known of “out-of-tune” proteins for a while, but the precise origin had remained unclear.
Much like a sentry at a border crossing, the network of tiny blood vessels surrounding the brain only allows a few important molecules in or out. This is the blood-brain barrier, which shields the brain from potentially harmful substances. Researchers are hoping to better understand this little understood roadblock by creating an artificially engineered, or simulated, barrier.
To cut down on postoperative problems, particularly those involving abdomenal surgery, Johns Hopkins undergraduates have invented a disposable suturing tool to guide the placement of stitches and guard against the accidental puncture of internal organs. Called FastStitch, it’s described a cross between a pliers and a hole-puncher.
Surprisingly, 90% of cancer deaths are caused from metastasis,the migration of cancer cells from a primary tumor to other parts of the body, not from the primary tumor alone. To better understand what happens to cells affected by this process, Johns Hopkins University researchers have fabricated a microfluidic-based cell migration chamber that has already yielded surprising results.
Johns Hopkins University researchers have discovered that a single protein molecule may hold the key to turning cardiac stem cells into blood vessels or muscle tissue, a finding that may lead to better ways to treat heart attack patients.
Two swimming strokes—one that pulls through the water like a boat paddle and another that whirls to the side like a propeller—are commonly used by athletes training for the Olympic Games. But elite swimmers and their coaches have long argued over which arm motion is more likely to propel an aquatic star toward a medal. A university research study has picked a winner.
In life, we sort soiled laundry from clean; ripe fruit from rotten. Two Johns Hopkins engineers say they have found an easy way to use gravity or simple forces to similarly sort microscopic particles and bits of biological matter—including circulating tumor cells.
When scientists think about the replication of information in chemistry, they usually have in mind something akin to what happens in living organisms when DNA gets copied: a double-stranded molecule that contains sequence information makes two new copies of the molecule. But researchers at the California Institute of Technology have now shown that a different mechanism can also be used to copy sequence information.
Scientists had originally thought they could create a “magic bullet” to patrol for cancer cells in the body, but only 5% of injected nanoparticles reach the targeted tumor using current delivery techniques. A Johns Hopkins University scientist is now working on techniques to specify nanoparticle size and shape and improve the chances that the drug will find its target.
An electric eel can generate enough current to stun its prey, just like a Taser. Weakly electric fish can also generate electricity, but not enough to do any harm. However, researchers have found that the animal’s ability to use an electric field to communicate, navigate, and hunt offers inspiration for a variety of engineering projects.
New observations from a spacecraft orbiting Mercury have revealed that the tiny, pockmarked planet harbors a highly unusual interior—and the craft's glimpse of Mercury's surface topography suggests the planet has had a very dynamic history.
To improve the next generation of insect-size flying machines, Johns Hopkins engineers have been aiming high-speed video cameras at some of the prettiest bugs on the planet. By figuring out how butterflies flutter among flowers with amazing grace and agility, the researchers hope to help small airborne robots mimic these maneuvers.
Researchers at Brown and Johns Hopkins universities have found optimal configurations for creating 3D geometric shapes. The Brown team developed the algorithmic tools, and the Johns Hopkins team tested selected configurations. The research may lead to advances from drug-delivery containers to 3D sensors and electronic circuits.
A new study by Johns Hopkins Bloomberg School of Public Health and other institutes traced genetic changes in the brain during a lifetime, has found surprising reversals after fetal development and connected to Alzheimer’s disease findings. Previous investigations have combined transcriptional and genetic analyses in human cell lines, but few have applied these techniques to human neural tissue.
For the first time in the seven years since a motorcycle accident left him a quadriplegic, Tim Hennes recently was able to reach out to someone. Using only his thoughts, he was able to control robotic arm designed at Johns Hopkins University Applied Physics Laboratory. It wasn’t his real arm, but it was close.
Scientists have known for more than 100 years that the universe is expanding, but in 1990s three physicists determined that this expansion is accelerating. The surprising finding, which suggests the cosmos will eventually freeze to ice, has earned the 2011 Nobel Prize in physics.
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