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Archive for the ‘biotech/medical’ category: Page 2623

Feb 27, 2016

A practical solution to mass-producing low-cost nanoparticles

Posted by in categories: 3D printing, biotech/medical, chemistry, health, robotics/AI

Nanoparticles form in a 3-D-printed microfluidic channel. Each droplet shown here is about 250 micrometers in diameter, and contains billions of platinum nanoparticles. (credit: Richard Brutchey and Noah Malmstadt/USC)

USC researchers have created an automated method of manufacturing nanoparticles that may transform the process from an expensive, painstaking, batch-by-batch process by a technician in a chemistry lab, mixing up a batch of chemicals by hand in traditional lab flasks and beakers.

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Feb 27, 2016

DNews — Cotton Candy Capillary

Posted by in categories: biotech/medical, food

Are cotton candy machines the key to making full-scale artificial organs? Discovery News.

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Feb 26, 2016

Illumina, the Google of Genetic Testing, Has Plans for World Domination

Posted by in categories: biotech/medical, business, genetics, internet

You could say that Illumina is to DNA sequencing is what Google is to Internet search, but that would be underselling the San Diego-based biotech company. Illumina’s machines, the best and cheapest on the market, generate 90 percent of all DNA sequence data today. Illumina is, as they say, crushing it.

But as lucrative as that 90 percent slice is for Illumina now, the whole pie is likely to get even bigger in the future. Less than 0.01 percent of the world’s population has been sequenced so far. So recently, Illumina has made bold moves positioning itself for the future: The company is consolidating its core hardware business—this week, it sued an upstart competitor, Oxford Nanopore Technologies, for patent infringement—while moving into the genetic testing business with new ventures like the liquid cancer biopsy spinoff, Grail.

The company is a looking toward a future in which a lot more people gets genetic tests—and a lot more often. “Grail’s business will be very different than Illumina’s core business,” Eric Endicott, Illumina’s director of global public relations, said in an email. “We are at a tipping point in genomics, where a broad community of scientists and researchers continue to translate the potential of the genome from science to discoveries and applications.”

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Feb 26, 2016

Microrobots learn from ciliates

Posted by in categories: biotech/medical, chemistry, materials, robotics/AI

Ciliates can do amazing things: Being so tiny, the water in which they live is like thick honey to these microorganisms. In spite of this, however, they are able to self-propel through water by the synchronized movement of thousands of extremely thin filaments on their outer skin, called cilia. Researchers from the Max Planck Institute for Intelligent Systems in Stuttgart are now moving robots that are barely perceptible to the human eye in a similar manner through liquids. For these microswimmers, the scientists are neither employing complex driving elements nor external forces such as magnetic fields. The team of scientists headed by Peer Fischer have built a ciliate-inspired model using a material that combines the properties of liquid crystals and elastic rubbers, rendering the body capable of self-propelling upon exposure to green light. Mini submarines navigating the human body and detecting and curing diseases may still be the stuff of science fiction, but applications for the new development in Stuttgart could see the light-powered materials take the form of tiny medical assistants at the end of an endoscope.

Their tiny size makes life extremely difficult for swimming microorganisms. As their movement has virtually no momentum, the friction between the water and their outer skin slows them down considerably — much like trying to swim through thick honey. The viscosity of the medium also prevents the formation of turbulences, something that could transfer the force to the water and thereby drive the swimmer. For this reason, the filaments beat in a coordinated wave-like movement that runs along the entire body of the single-celled organism, similar to the legs of a centipede. These waves move the liquid along with them so that the ciliate — measuring roughly 100 micrometres, i.e. a tenth of a millimetre, as thick as a human hair — moves through the liquid.

“Our aim was to imitate this type of movement with a microrobot,” says Stefano Palagi, first author of the study at the Max Planck Institute for Intelligent Systems in Stuttgart, which also included collaborating scientists from the Universities of Cambridge, Stuttgart and Florence. Fischer, who is also a Professor for Physical Chemistry at the University of Stuttgart, states that it would be virtually impossible to build a mechanical machine at the length scale of the ciliate that also replicates its movement, as it would need to have hundreds of individual actuators, not to mention their control and energy supply.

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Feb 26, 2016

Australian surgeon inserts 3D-printed vertebrae in world-first

Posted by in categories: 3D printing, biotech/medical

https://www.youtube.com/watch?v=deCY0_Zveeg&feature=youtu.be

An Australian neurosurgeon has completed a world-first marathon surgery removing cancer-riddled vertebrae and successfully replacing them with a 3D-printed body part.

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Feb 26, 2016

In CRISPR patent case, all eyes turn to the judge

Posted by in category: biotech/medical

And it begins.


Judge Deborah Katz, a former scientist, is presiding over the case of who holds the key intellectual property rights for CRISPR.

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Feb 25, 2016

Cops are asking Ancestry.com and 23andMe for their customers‘ DNA

Posted by in categories: biotech/medical, privacy

I hope this isn’t true.


Ask your family members about their criminal plans before spitting in that vial.

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Feb 25, 2016

Nitric oxide protects against parasite invasion and brain inflammation

Posted by in categories: biotech/medical, neuroscience

African trypanosomiasis is called ‘sleeping sickness’ because when the infection is untreated, trypanosome parasites will invade the brain and cause disruption of sleeping patterns and irreversible neurological damage. A study published on February 25th in PLOS Pathogens reports that in a mouse model of trypanosome disease, nitric oxide (NO) plays an unexpected role in preserving the integrity of the blood brain barrier (BBB), thereby reducing parasite invasion into the brain, and likely limiting neurological damage.

NO is generally thought to be a pro-inflammatory signal, promoting a strong immune response against pathogens. The resulting inflammation is a mixed blessing: on one hand, it helps to control potentially dangerous pathogens, but on the other, it can cause “collateral damage” to the inflamed tissue.

Martin Rottenberg and colleagues, from the Karolinska Institute in Stockholm, Sweden, are interested in how trypanosome cause disease and in the host immune defense against them. In this study, they examine the role of NO in a of trypanosomiasis, with a focus on how the parasites manage to get through the so-called (BBB), the border surrounding the mammalian that is normally impenetrable to foreign intruders as well as most host cells.

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Feb 25, 2016

Doctors implant 3D-printed vertebrae in ‘world’s first’ surgery

Posted by in categories: 3D printing, biotech/medical, cyborgs, neuroscience

Just Amazing


Ralph Mobbs, a neurosurgeon at the Prince of Wales Hospital in Sydney, made medical history in late 2015 when he successfully replaced two vertebrae with custom made prosthesis. The patient, in his 60s, suffered from Chordoma, a particularly nasty form of cancer that had formed on his top two vertebrae and threatened to cinch off his spinal cord as it grew. That would have left him a quadriplegic. Complicating matters, those top two vertebrae are what allow you to turn and tilt your head, so it’s not like doctors can easily fashion a replacement out of bone grafted from another part of the patient’s body. They have to fit perfectly and that’s where the 3D printers come in.

Mobbs worked with Anatomics, an Australian medical device manufacturer, to craft perfect replicas of the patient’s top two vertebrae out of titanium. This is the first time that these two particular neck bones have been printed and installed. “To be able to get the printed implant that you know will fit perfectly because you’ve already done the operation on a model … It was just a pure delight,” Mobbs told Mashable Australia. “It was as if someone had switched on a light and said ‘crikey, if this isn’t the future, well then I don’t know what is’.”

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Feb 25, 2016

Regenerative medicine scientists ‘print’ replacement tissue

Posted by in categories: 3D printing, biotech/medical, life extension

Completed ear and jaw bone structures printed with the Integrated Tissue-Organ Printing System (credit: Wake Forest Baptist Medical Center)

Using a sophisticated, custom-designed 3D printer, regenerative medicine scientists at Wake Forest Baptist Medical Center have proved that it is feasible to print living tissue structures to replace injured or diseased tissue in patients.

Reporting in Nature Biotechnology, the scientists said they printed ear, bone and muscle structures. When implanted in animals, the structures matured into functional tissue and developed a system of blood vessels. Most importantly, these early results indicate that the structures have the right size, strength and function for use in humans.

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