Tag Archives: Research

Clay Versus MRSA Superbug

“Healing clays” hold promise in fight against MRSA superbug infections and disease

Scientists from Arizona State University report that minerals from clay promise could provide inexpensive, highly-effective antimicrobials to fight methicillin-resistant Staphylococcus aureus (MRSA) infections that are moving out of health care settings and into the community.
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Unlike conventional antibiotics routinely administered by injection or pills, the so-called “healing clays” could be applied as rub-on creams or ointments to keep MRSA infections from spreading
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In their latest study, funded by the National Institutes of Health, Williams, Haydel and their colleagues collected more than 20 different clay samples from around the world to investigate their antibacterial activities… The researchers identified at least two clays from the United States that kill or significantly reduce the growth of these bacteria

Also listen to a podcast with the researchers, Lynda Williams and Shelly Haydel, that provides much more detail. The Science Studio podcasts from Arizona State University provides great science podcasts.

Squid Materials Engineering

Scientists find that squid beak is both hard and soft

The sharp beak of the Humboldt squid is one of the hardest and stiffest organic materials known. Engineers, biologists, and marine scientists at the University of California, Santa Barbara, have joined forces to discover how the soft, gelatinous squid can operate its knife-like beak without tearing itself to pieces.
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The key to the squid beak lies in the gradations of stiffness. The tip is extremely stiff, yet the base is 100 times more compliant, allowing it to blend with surrounding tissue. However, this only works when the base of the beak is wet. After it dries out, the base becomes similarly stiff as the already desiccated beak tip.
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“You can imagine the problems you’d encounter if you attached a knife blade to a block of Jell-o and tried to use that blade for cutting. The blade would cut through the Jell-o at least as much as the targeted object. In the case of the squid beak, nature takes care of the problem by changing the beak composition progressively, rather than abruptly, so that its tip can pierce prey without harming the squid in the process. It’s a truly fascinating design!”
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“If we could reproduce the property gradients that we find in squid beak, it would open new possibilities for joining materials,” explained Zok. “For example, if you graded an adhesive to make its properties match one material on one side and the other material on the other side, you could potentially form a much more robust bond,” he said. “This could really revolutionize the way engineers think about attaching materials together.”

6 Inch Bat Plane

image of bat plane

A six-inch robotic spy plane modeled after a bat would gather data from sights, sounds and smells in urban combat zones and transmit information back to a soldier in real time.

That’s the Army’s concept, and it has awarded the University of Michigan College of Engineering a five-year, $10-million grant to help make it happen. The grant establishes the U-M Center for Objective Microelectronics and Biomimetic Advanced Technology, called COM-BAT for short. The grant includes an option to renew for an additional five years and $12.5 million.

U-M researchers will focus on the microelectronics. They will develop sensors, communication tools and batteries for this micro-aerial vehicle that’s been dubbed “the bat.” Engineers envision tiny cameras for stereo vision, an array of mini microphones that could home in on sounds from different directions, and small detectors for nuclear radiation and poisonous gases.

Low-power miniaturized radar and a very sensitive navigation system would help the bat find its way at night. Energy scavenging from solar, wind, vibration and other sources would recharge the bat’s lithium battery. The aircraft would use radio to send signals back to troops.

“These are all concepts, and many of them are the next generation of devices we have already developed. We’re trying to push the edge of our technologies to achieve functionality that was not possible before,” said Kamal Sarabandi, the COM-BAT director and a professor in the U-M Department of Electrical Engineering and Computer Science.

COM-BAT also involves the University of California at Berkeley and the University of New Mexico. It is one of four centers the Army launched as a collaborative effort among industry, academia and the Army Research Laboratory to work toward this vision of a small, robotic aircraft that could sense and communicate. Each of the four centers is charged with developing a different subsystem of the bat, a self-directed sensor inspired by the real thing.
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$10 Million X Prize for 100 MPG Car

Progressive Automotive X PRIZE

The window for applications will be open until mid 2008, when a thorough qualification process will assess safety, cost, features and business plans to ensure that only production-capable, consumer-friendly cars compete. Those that qualify will race their vehicles in rigorous cross-country stage races in 2009 and 2010 that combine speed, distance, urban driving and overall performance. The winners will be the vehicles that exceed 100 MPG, meet strict emissions standards and finish in the fastest time. Host cities involved in the competition route are to be announced shortly.

Drug Price Crisis

I don’t think the suggestion below really solves the drug price crisis. But I do think it is an example of an educational and research institution actually proposing sensible role for themselves. As I have said too many universities now act like they are for-profit drug or research companies: Funding Medical Research. For some background on drug prices read my post on the Curious Cat Management blog from 2005.

Solving the drug price crisis

The mounting U.S. drug price crisis can be contained and eventually reversed by separating drug discovery from drug marketing and by establishing a non-profit company to oversee funding for new medicines, according to two MIT experts on the pharmaceutical industry.
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Following the utility model, Finkelstein and Temin propose establishing an independent, public, non-profit Drug Development Corporation (DDC), which would act as an intermediary between the two new industry segments — just as the electric grid acts as an intermediary between energy generators and distributors.

The DDC also would serve as a mechanism for prioritizing drugs for development, noted Finkelstein. “It is a two-level program in which scientists and other experts would recommend to decision-makers which kinds of drugs to fund the most. This would insulate development decisions from the political winds,” he said.

Book – Reasonable Rx: Solving the Drug Price Crisis by Stan Finkelstein and Peter Temin

Bird Brain Language Research

Molecular Mapping of Movement-Associated Areas in the Avian Brain: A Motor Theory for Vocal Learning Origin

Vocal learning is a critical behavioral substrate for spoken human language. It is a rare trait found in three distantly related groups of birds-songbirds, hummingbirds, and parrots. These avian groups have remarkably similar systems of cerebral vocal nuclei for the control of learned vocalizations that are not found in their more closely related vocal non-learning relatives. These findings led to the hypothesis that brain pathways for vocal learning in different groups evolved independently from a common ancestor but under pre-existing constraints. Here, we suggest one constraint, a pre-existing system for movement control.

Using behavioral molecular mapping, we discovered that in songbirds, parrots, and hummingbirds, all cerebral vocal learning nuclei are adjacent to discrete brain areas active during limb and body movements. Similar to the relationships between vocal nuclei activation and singing, activation in the adjacent areas correlated with the amount of movement performed and was independent of auditory and visual input.
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Based upon these findings, we propose a motor theory for the origin of vocal learning, this being that the brain areas specialized for vocal learning in vocal learners evolved as a specialization of a pre-existing motor pathway that controls movement.

Deep-Sea Denizen Inspires New Polymers

Stealing a trick from a tiny, pickle-shaped creature that dwells in the depths of the ocean, scientists have designed a new polymer that, when exposed to water, can instantly change its rigidity and strength.
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Christoph Weder, an associate professor in the same department at Case, says he and Rowan thought of copying the sea cucumber’s adaptation more than five years ago. Working with marine biologists, they determined that the deep-sea animal accomplished its transformation thanks to fibers made of a protein known as collagen. The tightness of the connections between those fibers determines how stiff the cucumber’s skin is, and is controlled by the animal’s nervous system.

To get their polymer to do the same thing, the Case scientists used fibers found in another deep sea dweller, sea squirts, and also in cotton. When they mixed those fibers – known as cellulose nanofibers – with the rubbery polymer ethylene oxide–epichlorohydrin, they formed a stiff network, “almost glued to each other,” says Weder. Due to the nature of the bonds between the polymer and the fibers, however, water gets between the two substances, weakening the fibers’ adhesion. The material then becomes soft.

Funding Medical Research

Cheap, ‘safe’ drug kills most cancers

It sounds almost too good to be true: a cheap and simple drug that kills almost all cancers by switching off their “immortality”. The drug, dichloroacetate (DCA), has already been used for years to treat rare metabolic disorders and so is known to be relatively safe. It also has no patent, meaning it could be manufactured for a fraction of the cost of newly developed drugs.

Evangelos Michelakis of the University of Alberta in Edmonton, Canada, and his colleagues tested DCA on human cells cultured outside the body and found that it killed lung, breast and brain cancer cells, but not healthy cells. Tumours in rats deliberately infected with human cancer also shrank drastically when they were fed DCA-laced water for several weeks.

DCA attacks a unique feature of cancer cells: the fact that they make their energy throughout the main body of the cell, rather than in distinct organelles called mitochondria. This process, called glycolysis, is inefficient and uses up vast amounts of sugar.

Until now it had been assumed that cancer cells used glycolysis because their mitochondria were irreparably damaged. However, Michelakis’s experiments prove this is not the case, because DCA reawakened the mitochondria in cancer cells. The cells then withered and died

The University of Alberta is raising funds to further the research. Some look at this and indite a funding system that does not support research for human health unless there is profit to be made. Much of the blame seems to go to profit focused drug companies. I can see room for some criticism. But really I think the criticism is misplaced.

The organizations for which curing cancer is the partial aim (rather than making money) say government (partial aim or public health…), public universities (partial aim of science research or medical research…), foundations, cancer societies, private universities… should fund such efforts, if they have merit. Universities have huge research budgets. Unfortunately many see profit as their objective and research as the means to the objective (based on their actions not their claims). These entities with supposedly noble purposes are the entities I blame most, not profit focused companies (though yes, if they claim an aim of health care they I would blame them too).

Now I don’t know what category this particular research falls into. Extremely promising or a decent risk that might work just like hundreds or thousands of other possibilities. But lets look at several possibilities. Some others thoughts on where it falls: Dichloroacetate to enter clinical trials in cancer patients, from a previous post here – Not a Cancer Cure Yet, The dichloroacetate (DCA) cancer kerfuffle, CBC’s ‘The Current’ on dichloroacetate (DCA), Dichloroacetate (DCA) Phase II Trial To Begin (“Like hundreds (if not, thousands) of compounds being tested to treat cancer, DCA was shown by Michelakis’ group earlier this year to slow the growth of human lung tumors in a preclinical rodent model.”).
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Virus Engineered To Kill Deadly Brain Tumors

Yale Lab Engineers Virus That Can Kill Deadly Brain Tumors

A laboratory-engineered virus that can find its way through the vascular system and kill deadly brain tumors has been developed by Yale School of Medicine researchers, it was reported this week in the Journal of Neuroscience.

Each year 200,000 people in the United States are diagnosed with a brain tumor, and metastatic tumors and glioblastomas make up a large part of these tumors. There currently is no cure for these types of tumors, and they generally result in death within months.
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“Three days after inoculation, the tumors were completely or almost completely infected with the virus and the tumor cells were dying or dead,” van den Pol said. “We were able to target different types of cancer cells. Within the same time frame, normal mouse brain cells or normal human brain cells transplanted into mice were spared. This underlines the virus’ potential therapeutic value against multiple types of brain cancers.”

Pretty cool. Too bad these press releases never quite live up to the initial promise. Still this one is very cool, if it can succeed in helping even a small percentage of people it will be a great breakthrough. It is also just cool – using a virus to kill tumors – how cool is that?

Scientists Search for Clues To Bee Mystery

Honey Bees Give Clues on Virus Spread by Carl Zimmer

Now, as farmers wait anxiously to see if the honeybees will suffer again this spring, the true cause of CCD remains murky. Skeptics have raised many reasons to doubt that Australian viruses are to blame. In Australia, bees that get Israeli acute paralytic virus don’t get sick, and the country has had no reports of CCD. And in places where honeybee colonies are collapsing — Greece, Poland, Spain — there are no imported Australian bees. These are not the sort of patterns you’d expect, the skeptics say, if Australian viruses were killing American bees.
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Whether scientists look inside a honeybee or look at the entire biosphere, nature is proving to be awesomely intricate. In the oceans and the soil, metagenomics is revealing millions of different kinds of microbes, with an almost inconceivable diversity of viruses shuttling between them, carrying genes from host to host. But we have almost no idea how these menageries work together, either in the biosphere or inside a host like a honeybee — or a human. Many of the microbes that metagenomics is revealing are entirely new to science. As genetic databases fill with DNA sequences from millions of new species, our scientific wisdom lags far behind.

How true. Watching as scientists try to work out what is going on with Colony Collapse Disorder is a great lesson in how scientists search for answers. As I stated earlier much of science is not about simple obvious truths but a search through confusing signs to try and determine what is going on. Answering why, is not always so easy as it appears when someone has already found the answer and posted it online.