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Category: biotech/medical – Page 2,827

Neuroprosthetics: Brain Interface Applied in Neurology

The brain is the fattiest organ in your body made up of 60% fat, the dry part that is. 75% of your brain is actually water which houses 100,000 miles of blood vessels that use up 20% of all your oxygen and blood. It’s an amazing piece of hardware. Of all the moonshot projects out there, the ones that relate to augmenting the brain are perhaps the most fascinating. Companies like Kernel have actually succeeded in writing long-term memories to a chip – well, at least 80% of them. When that number hits 100%, the sky is the limit to what we can do with the brain.

If you want a graphic image of what the future holds, imagine a robotic arm on top of your table (no wires) moving its fingers or trying to grab something powered only by someone’s thought. After all those Terminator movies, this could be a bit creepy. You may not get Terminator at your doorstep just yet, but someone with neuroprosthesis might just be ringing your doorbell a few years from now.

Neuroprosthetics or neuroprosthesis is a field of biomedical engineering and neuroscience concerned with the development of neural prostheses which are a series of devices that can substitute your brain’s motor, sensory or cognitive functionality that might have been damaged as a result of an injury or a disease.

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New Drug Transforms the Immune System to Slow the Progress of Multiple Sclerosis

In Brief:

  • The Multiple Sclerosis Foundation estimates that more than 400,000 people in the United States and about 2.5 million people around the world have MS.
  • A new drug, Ocrelizumab, is the first known drug shown to work against the primary progressive form of MS by altering the immune system to slow damage to the brain.

Multiple sclerosis (MS) is an unpredictable and potentially disabling disease that cripples the central nervous system. It’s a widespread neurological condition that hits young adults, usually between the ages of 20 and 40, caused by an immune system disorder that mistakes a part of the brain as a hostile foreign object and attacks it. Though there are treatments available, particularly for its second state, multiple sclerosis remains incurable.

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Bioprinting Human Skin Cuts the Time Needed from Weeks to Minutes

More progress for tissue engineering.

Skin is one of the easier starting points for 3D bioprinting, the application of rapid prototyping technologies to the construction of living tissue. Since skin is a thin tissue, the challenging issue of producing the intricate blood vessel networks needed to supply inner cells with oxygen and nutrients can be skipped. Thin tissue sections can be supported in a suitable nutrient bath, and after transplant, patient blood vessels will grow into the new skin. Further, there is a fairly large and long-established research and development industry involved in various forms of skin regeneration. Numerous forms of prototype skin-like tissues have been created over the years, lacking many of the features of the real thing, but still useful in the treatment of, for example, burn victims. Further, skin structure is by now well understood, and considerable progress has been made in deciphering the signals and environment needed for suitable cells to self-assemble into the correct arrangements. All told, it should not be a complete surprise to see significant progress emerge in this part of the field.

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Sequencing poisonous mushrooms to potentially create medicine

Just when you thought there wasnt mushroom left for new drug discovery!

A team of Michigan State University scientists has genetically sequenced two species of poisonous mushrooms, discovering that they can theoretically produce billions of compounds through one molecular assembly line. This may open the door to efficiently tackling some lethal diseases.

The study, published in the journal BMC Genomics, reveals the DNA of two Amanita mushrooms, which are responsible for the majority of fatal mushroom poisonings.

The team will focus on the “Death Cap,” which grows all over the West Coast and Europe, and the “Destroying Angel,” native to Michigan.

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New Organisms Have Been Formed Using the First Ever 6-Letter Genetic Code

Scientists have engineered the first ever ‘semi-synthetic’ organisms, by breeding E. coli bacteria with an expanded, six-letter genetic code.

While every living thing on Earth is formed according to a DNA code made up of four bases (represented by the letters G, T, C and A), these modified E. coli carry an entirely new type of DNA, with two additional DNA bases, X and Y, nestled in their genetic code.

The team, led by Floyd Romesberg from the Scripps Research Institute in California, engineered synthetic nucleotides — molecules that serve as the building blocks of DNA and RNA — to create an additional base pair, and they’ve successfully inserted this into the E. coli’s genetic code.

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