Tag: implant technology

The Future is Here: Silk Brain Implant to Treat Epilespy

silk_implantsSilk implants are becoming the way of the future as far as brain implants are concerned, due to their paradoxically high resiliency and ability to dissolve. By combining them with nanoelectric circuits or drugs, scientists are exploring several possible applications, ranging from communications devices to control prosthetics and machines to medicinal devices that could treat disabilities and mental illnesses.

And according to a recent study released by the National Institutes of Health, treating epilepsy is just the latest application. According to the study, when administered to a series of epileptic rats, the treatment led to the rats experiencing far fewer seizures. What’s more, this new treatment represents something entirely new in terms of treatment of neurological disorder.

brain_chipFor starters, Rebecca L. Williams-Karneskyand and her colleagues used the silk implants for a timed-release therapy in rats experiencing epileptic seizures. Working on the theory that people with epilepsy suffer from a low level of adenosine – a chemical that the brain releases naturally to suppress seizures (and also perhaps movement during sleep) – they soaked the silk implants before implanting them.

Those rats who recieved the silk brain implants still had seizures, but their numbers were reduced fourfold. The implant released the chemical for ten days before they completely dissolved. And with time and testing, the treatment could very easily be made available for humans. According to the study’s co-author, Detlev Boison:

Clinical applications could be the prevention of epilepsy following head trauma or the prevention of seizures that often — in about 50 percent of patients — follow conventional epilepsy surgery. In this case, adenosine-releasing silk might be placed into the resection cavity in order to prevent future seizures.

brainscanBetween the timed release of drugs and nanoelectric circuits that improve neuroelasticity, recall and relaxation, brain implants are coming a long way. At one time, they were the province of cyberpunk science fiction. But thanks to ongoing research and development, they are quickly jumping from the page and becoming a reality.

Though they currently remain confined to medical tests and laboratories, experts agree that it will be just a few years time before they are commercially available. By sometime in the coming decade, medimachines and neural implants will probably become a mainstay, and neurological disorders a fully treatable phenomena.

Sources: io9.com, nih.gov

The Future is Here: Cellular Computers!

dnacomputingComputing has come so far in such a relatively short space of time. Beginning with comparatively basic models, which relied on arrangements of analogue circuits (such as capacitors and resistors), scientists were able to perform complex calculations, crack impenetrable cyphers, and even know how and where to deploy counter-measures against incoming missiles. And as we all know, sometimes you have to look back to the fundamentals if you want to move any farther ahead.

And that’s precisely what researchers at MIT have done with their latest innovation: an analog computer that works inside a living cell! A massive step towards a future where machinery and biology are one and the same, these “cellular computers” were not only able to perform arithmetic, but also more complex functions like taking logarithms, square roots, and even do power law scaling.

biological-analog-computers-in-cells-640x353This news comes on the heels of researchers at Stanford who were able to create a biological transistor inside a cell. Relying on DNA and RNA to create a “transcriptors”, the Standford researchers were able to create a biological logic gate, and all on the microscopic scale. When combined the sorts of digital and analog circuits common to computing, this research could lead to powerful sensing and control platforms built on very small scales.

And like many recent innovations and developments made within the world of computing and biotechnology, the possibilities that this offers are startling and awesome. For one, all cells work with a certain biological clock, which regulates growth, circadian rhythms, aging, and numerous biological process. Thus far, the researchers in question have been hosting their biological computers in bacterial cells. But if they were to develop analogous circuits that operate in mammalian cells, these functions might be brought into better use.

DNA-molecule2What this means is that we could be very well seeing the beginning of biology that is enhanced and augmented by the addition of technology on the cellular level. And not in the sense of tiny machines or implants, things made of silicon and minerals that would regulate our blood flow, administer drugs or monitor or vitals. No, in this case, we would be talking about machines that are composed of self-regulating DNA and RNA and work in the same way our organic tissues do.

On top of that, we would be able to create things like flash drives and computation software from living tissue, cramming thousands of terabytes of into into a few cells worth of genetic material. Human beings would no longer need smartphones, PDAs or tablets, since they would be able to carry all the information they would ever need in their body. And the ability to do this could very well lead to the creation of AI’s that are not build, but grown, making them virtually indistinguishable from humans.

caprica_6And you know what that means, don’t you? The line between biological and artificial would truly begin to dissolve, Voight-Kampff and genetic tests might have to become mandatory, and we could all be looking at robots that look something like this…

Man the future is awesome and scary!

Sources: Extremetech.com, (2)

Envisioning The Future of Health Technology

My thanks, yet again, to Futurist Foresight for providing the link to this fascinating infographic, which is the work of the good people at Envisioning Technology. People may remember this website from their work on “Envisioning Emerging Technology”, an infographic from a previous article which addressed the likelihood of interrelated technological developments in the coming decades. As a trend forecasting studio, compiling information and predictions into reports and tables in pretty much what these guys do. What a cool job!

In any case, here we have a table representing the future of health technology, as predicted by ET. Diving their findings into the fields of Augmentation, Biogerontology, Diagnostics, Telemedicine, Treatments, and Regeneration respectively, they attempt to show how small advancement in the near future will branch outwards to more radical ones in the not-too-distant future. The rough dates correspond to their previous graphic, starting with modern day research and culminating in 2040.

And of course, the infographic also shows how developments in all these fields over time will be interrelated, corresponding to different sub fields and becoming part of the ever-expanding field of advanced medicine. These sub fields include:

  • 3D Printing
  • Big Data
  • Cryonics
  • Life Extension
  • mHealth (health services supported by mobile devices)
  • Remote Virtual Presence
  • Neuroprosthetics
  • Sensors
  • Sensory Augmentation
  • Synthetic and Artificial Organs

Some inventions that are predicted include the Tricorder, 3D printed organs, artificial limbs, artificial eyes, cryogenic freezing, gene therapy, AI therapists, robotic nurses, robot surgery, implanted sensors, and exoskeletons. Wow, tricorders, really? In truth, I am often alarmed at what will be possible in the near future, but knowing that advancements are around the corner that could make life a lot healthier and happier for so many people gives me hope. Until next time!