Tuesday, November 11, 2014

This Woman's Futuristic Startup Could Change 900,000 Surgeries A Year

Source: http://www.businessinsider.com/nina-tandon-of-epibone-grows-bones-from-stem-cells-2014-11

nina_tandon_TED

If you've ever broken a bone, you know the process to recovery is slow and painful.

Now imagine neither splint nor surgery were enough to seal the fracture. Instead, your doctor says you need a bone graft, a procedure that involves taking bone from elsewhere to fill the gap created by your injury.

You have a choice: Allow a surgeon to cut bone from another place in your body or get some new bone from a dead person. Both are risky: Bone from another body can carry disease, so doctors have to be careful about screening donors. Grafts from your own body can still be rejected and cause a painful infection or in more serious cases lead to nerve damage.

Nina Tandon wants to do away with both of these options. Instead, she wants to help you grow your own bone. From your own cells. In the exact shape and size you need.

Her company, called EpiBone, is close to making this reality. Using stem cells and a special type of incubator, she and her team have grown durable, living bones.

But the road ahead will be challenging. So far, only a few trials of bones grown in a lab have been tested in people, and few comprehensive studies of their longterm effects have been done. The field of regenerative medicine itself is only a little over a decade old.

Putting Things Back Together

nina tandon in lab

Before she ever saw the inside of a lab, seven-year-old Tandon made a hobby out of taking apart her parents' tube TV, learning how each piece functioned and fit together, and putting it back together again.

With EpiBone, 34-year-old Tandon has made a career out of putting things back together. But this time, ins! tead of cathodes and wires, she uses body parts.

Tandon began building human tissues as a biomedical engineering student at Columbia University. She started with the strips of muscle that line the heart, and moved on to the delicate layers of skin that protect our bodies from outside elements. In 2013, she used neonatal heart cells and a bit of electrical stimulation to build a 5mm by 5mm piece of engineered cardiac tissue capable of beating.

Now she's using stem cells to build personalized bones.

"I see this as being a part of a bigger story that’s integrating biology into part of the supply chain," Tandon says. "We're starting to see biology as a technological partner way beyond just making medicines."

How It Works
finished epibone

Every year, some 900,000 Americans undergo bone-related surgery. For people who've experienced severe trauma, lost bone to cancer, or were born with congenital defects, the EpiBone process could dramatically change how they experience surgery and how they recover.

First, Tandon and her team do a CT scan of the bone defect to get a complete picture of its exact size and shape. Then, using a procedure similar to liposuction, they take stem cells from the patient's fat cells. The cells EpiBone uses are called multipotent stem cells, meaning they are capable of developing into many different tissues, including bone.

One of the major strengths of EpiBone is that its materials come from the body's own cells, meaning it's far less likely they'll get rejected compared to foreign bone or synthetic materials.

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Once harvested, the stem cells are placed inside a sort of incubator, or bioreactor, where they can grow along a delicate frame of animal bone and cartilage. The bioreactor is "like a fancy fish tank," says Tandon, that "gives cells all the nutrients they need to make a perfect product." Inside, the cells develop into a living, custom-built implant in three to four weeks.

Because each EpiBone graft is custom-built, it can be made to fit precisely in the desired location — a huge plus compared to a bulky chunk of synthetic bone or bone cut from elsewhere in your own body. That snug fit could help shorten surgery and recovery times, says Tandon.

The Challenges

Biomedical engineer Warren Grayson, who leads his own laboratory working on tissue engineering at Johns Hopkins University and is a shareholder in EpiBone, led the first study showing that bone grafts made from stem cells and grown in a bioreactor could work inside a living body. His team successfully grew a human jaw bone using stem cells from fat tissue. While Grayson clearly supports the technology, he says he sees "some challenges making it work in patients."

The first challenge is getting federal approval. While Tandon has shown her technology works in animals, she hasn't yet tested it on people. The Food and Drug Administration typically requires years of lengthy trials before rubber-stamping any drug. Because EpiBone is a living technology, the barrier for getting the federal go-ahead will likely be set far higher, says Case Western Reserve University professor of biomedical engineering Steven Eppell, who's patented a different approach that doesn't require the use of living materials.

Next is cost. Because each EpiBone graft would have to be custom-built with a patient's own stem cells, it will likely be expensive. One 2012 study pegged the cost of lab-grown bones at somewhere between $10,000 and $15,000, or about three to four times the cost of a traditional procedure.

"If you're asking if I'd put my money in it, I don't think I would," says Eppell, who is likely banking on his own approach to the same problem. "But if you're asking if I think this is the technology of the future, yes, it definitely is."

What's Next

Tandon's technology could be implemented in people as early as sometime in the next 5-10 years, she says. But there's a lot that would need to be shown between now and then.

So far, EpiBone has yet to test its specific process in humans, but the technique of using stem cells to grow bones has been demonstrated in humans in seven clinical studies. Still, because of the variety of techniques and studies used to test the technology in the past, it's been difficult for scientists to determine how well the technology works and if it's ready for broader applications.

Most of the studies have been small, for example, and the researchers didn't always compare the patients who participated in them with control patients who received traditional surgery or no surgery at all. For some of the earliest studies, researchers didn't maintain contact with patients long enough to perform longterm follow-ups of their procedures. And some of the surgeries involved using stem cells from bone marrow rather than fat tissue, which is the technique Tandon uses.

Tandon's team plans to test their product in human patients for the first time within 18 months. In the meantime, they must demonstrate that the technology can work. The company hired its first employees this month and are still in the process of moving into a bigger, newer space in New York City. Once they're settle! d, they' ll be spending the next year and a half doing more tests and trying to build larger, more complex bones.

"The time of building with living cells has arrived," Tandon says.

DON'T MISS: 10 Ideas That Are About To Change Medicine Forever

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Schools in the US love Google Chromebooks

Source: http://www.engadget.com/2014/11/10/google-chromebooks-education-us/

When it comes to the Chromebook, Google isn't shy about its beliefs that it is the perfect computing device for education sectors around the world. And here in the US, schools and students have started to feel the same way. In a blog post, where it highlights different ways in which educational institutions in California are using Chromebooks, Google pointed out that recent IDC numbers have its line of computers as being the best-selling device in K-12 education. The report takes into consideration laptops and tablets, so this is a notable achievement for the technology company.

Some school districts like Montgomery County, MD, for example, are using over 50,000 Chromebooks, and that's after only beginning adoption earlier this year. But Google isn't quite satisfied, as it wants Chromebook to keep reaching even more students and schools -- especially outside its home soil, where resources are particularly limited.

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Source: Google

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​Sony's waterproof SmartWatch 3 is on sale now for $250

Source: http://www.engadget.com/2014/11/11/sony-smartwatch-3-on-sale/


Maybe third time's the charm. Sony's first Android Wear device is smartwatch number three, and it's gone on sale today, priced at $250. There's no circular screen, but there is a healthy does of IP68 waterproofing and a built-in GPS. Features like this could make the SmartWatch 3 arguably the most outdoors-friendly of the Wear crowd, even if its relatively meek design doesn't turn that many heads.

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Source: Google Play

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Monday, November 10, 2014

Mozilla Is Helping Tor Get Bigger and Better

Source: http://feeds.gawker.com/~r/gizmodo/vip/~3/ZoB6BQ49wVY/mozilla-is-helping-tor-get-bigger-and-better-1656860653

Mozilla Is Helping Tor Get Bigger and Better

Mozilla knows what's up. The non-profit is aware that the vast majority of its users think that privacy on the internet is falling apart, so it's launching a new strategic privacy initiative called Polaris. And you'll never guess who's on board. Just kidding, it's totally obvious: the Tor Project.

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This Gold-Plated iPhone 6 Costs $7,300 And Features An Apple Logo Encrusted With Diamonds

Source: http://www.businessinsider.com/7300-iphone-6-is-24k-gold-plated-and-features-a-diamond-apple-logo-2014-11

Ademov gold-plated iPhone 6

If Apple's gold-tinted iPhone 6 isn't enough for you, now you can upgrade to the real thing.

For $7,300, luxury electronics store Ademov will sell you an iPhone 6 plated in 24-carat gold. Even the Apple logo is given special treatment, plated with 18-carat gold and encrusted with VS1 white diamonds.

To protect the gold surface, Ademov applies polish and a clear coat so you can handle the phone.

The $7,300 price tag also includes a custom wooden box, maintenance kit, and you can add engraving to the iPhone's gold surface for an additional cost.

In addition to its gold iPhone 6, Ademov also offers a gold-plated MacBook Air and other iMacs and Macbook Pros with colored plates and eye-popping anondized aluminum colors.

You can check out the gallery of pictures below, or head on over to Ademov if you're interested in placing an order.

ademov MacBook Pro space grey

ademov gold-plated iPhone 6

ademov blue imac

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