Photograph Of The XS-1 In Flight

(Image caption: This type of electrocorticography (ECoG) grid, which is implanted in patients about to undergo epilepsy surgery, enables researchers to record and transmit electrical signals to and from the surface of the brain. Credit: Mark Stone/University of Washington)

For the first time in humans, researchers use brain surface stimulation to provide ‘touch’ feedback to direct movement

In the quest to restore movement to people with spinal cord injuries, researchers have focused on getting brain signals to disconnected nerves and muscles that no longer receive messages that would spur them to move.

But grasping a cup or brushing hair or cooking a meal requires other feedback that has been lost in amputees and individuals with paralysis — a sense of touch. The brain needs information from a fingertip or limb or external device to understand how firmly a person is gripping or how much pressure is needed to perform everyday tasks.

Now, University of Washington researchers at the National Science Foundation Center for Sensorimotor Neural Engineering (CSNE) have used direct stimulation of the human brain surface to provide basic sensory feedback through artificial electrical signals, enabling a patient to control movement while performing a simple task: opening and closing his hand.

It’s a first step towards developing “closed loop,” bi-directional brain-computer interfaces (BBCIs) that enable two-way communication between parts of the nervous system. They would also allow the brain to directly control external prosthetics or other devices that can enhance movement — or even reanimate a paralyzed limb — while getting sensory feedback.

The results of this research will be published in the Oct.-Dec. 2016 issue of IEEE Transactions on Haptics. An early-access version of the paper is available online.

“We were able to provide a baseline degree of sensory feedback by direct cortical stimulation of the brain,” said lead author and UW bioengineering doctoral student Jeneva Cronin. “To our knowledge this is the first time it’s been done in a human patient who was awake and performing a motor task that depended on that feedback.”

The team of bioengineers, computer scientists and medical researchers from the CSNE and UW’s GRIDLab used electrical signals of different current intensities, dictated by the position of the patient’s hand measured by a glove he wore, to stimulate the patient’s brain that had been implanted with electrocorticographic (ECoG) electrodes. The patient then used those artificial signals delivered to the brain to “sense” how the researchers wanted him to move his hand.

“The question is: Can humans use novel electrical sensations that they’ve never felt before, perceive them at different levels and use this to do a task? And the answer seems to be yes,” said co-author and UW bioengineering doctoral student James Wu. “Whether this type of sensation can be as diverse as the textures and feelings that we can sense tactilely is an open question.”

They would also allow the brain to directly control external prosthetics or other devices that can enhance movement — or even reanimate a paralyzed limb — while getting sensory feedback.

It’s difficult for a person to mimic natural movements — whether using a prosthetic device or a limb that has become disconnected from the brain by neurological injury — without sensation. Though there are devices to assist patients with paralysis or who have undergone amputations with basic function, being able to feel again ranks highly on their priorities, researchers said.

Restoring this sensory feedback requires developing an “artificial” language of electrical signals that the brain can interpret as sensation and incorporate as useful feedback when performing a task.

The UW CSNE team frequently works with patients about to undergo epilepsy surgery who have recently had an ECoG electrode grid implanted on the surface of their brain. For several days or weeks, doctors constantly monitor their brain activity to pinpoint the origin of their seizures before operating.

By consenting to participate in research studies during this period when their brain is “wired,” these patients enable researchers to answer basic neurological questions. They can test which parts of the brain are activated during different behaviors, what happens when a certain region of the brain’s cortex is stimulated and even how to induce brain plasticity to promote rehabilitation and healing across damaged areas.

The potential to use ECoG electrodes implanted on the surface of the brain in future prosthetic or rehabilitative applications offers several advantages — the signals are stronger and more accurate than sensors placed on the scalp, but less invasive than ones that penetrate the brain, as in a recent study by University of Pittsburgh researchers.

In the UW study, three patients wore a glove embedded with sensors that provided data about where their fingers and joints were positioned. They were asked to stay within a target position somewhere between having their hands open and closed without being able to see what that target position was. The only feedback they received about the target hand position was artificial electrical data delivered by the research team.

When their hands opened too far, they received no electrical stimulus to the brain. When their hand was too closed – similar to squeezing something too hard – the electrical stimuli was provided at a higher intensity.

One patient was able to achieve accuracies in reaching the target position well above chance when receiving the electrical feedback. Performance dropped when the patient received random signals regardless of hand position, suggesting that the subject had been using the artificial sensory feedback to control hand movement.

Providing that artificial sensory feedback in a way that the brain can understand is key to developing prosthetics, implants or other neural devices that could restore a sense of position, touch or feeling in patients where that connection has been severed.

“Right now we’re using very primitive kinds of codes where we’re changing only frequency or intensity of the stimulation, but eventually it might be more like a symphony,” said co-author Rajesh Rao, CSNE director and UW professor of computer science & engineering.

“That’s what you’d need to do to have a very natural grip for tasks such as preparing a dish in the kitchen. When you want to pick up the salt shaker and all your ingredients, you need to exert just the right amount of pressure. Any day-to-day task like opening a cupboard or lifting a plate or breaking an egg requires this complex sensory feedback.”

E H Shepard illustration from Now we are six by A A Milne 

It’s easy:  Form a triangle, then a hexagon, then a bicycle wheel

This is the general mechanism on how a spider spins its web (talk about engineering, right?). When an insect gets caught in its web, the vibrations caused by the insect is felt by the spider which then rushes to engulf its prey.

Now here is the trippy part ; This is the effect of drugs on the pattern of the web.

Hope you are having a great week. Have a good one!

* Spider spinning a web (video) (if you find a better full video let us know)

** Spiders on drugs -  NASA article ; Video

Ornithorhynchus anatinus - Detail of Bill

The monotremes (egg-laying mammals) are the only mammalia with any sort of electroreception ability, and the platypus’ ability is far stronger than that of the echidna. They use neither sight nor smell while hunting for their food, which consists of small crustaceans and molluscs buried in lakes and slow-moving river bottoms. The platypus finds its food by sweeping its broad bill back and forth along the sediment, and the receptors that line the front and part of the sides of the bill pick up the electric field given off by its prey. It then uses its paws (with the flipper-ish part folded back) to dig out its snack.

Illustrations from the Proceedings of the Zoological Society of London, Vol. I: Mammalia. 1848-1860.

Singapore Food (in Manga/Anime) Appreciation Post!

(Also: Onion Chopping Ninja Reveals Her Timezone!)

It’s Singapore’s National Day today (9th Aug) and I was going to do a Singaporean-based Recipe, (like Hayama’s Curry Fish Head), but didn’t have time to, so here’s a Singapore Food in Manga/Anime Appreciation Post - from Kuragehime, Shokugeki no Souma, and Addicted to Curry!

The Singaporean food that is usually shown in manga/anime is usually either curry-based or chicken rice. And of course, I don’t usually make them at home because: 1. They’re easier to make in bulk 2. You can get them cheaper outside 3. My version would pale in comparison to the masters’ 4. It requires hours of preparation, except for some of the easier curry dishes in Addicted to Curry. (A manga cap of the recipe is above!)

Addicted to Curry lists Singapore as Curry Central, and I never realized how true that was until I went abroad for a couple of years and missed how we would just drown everything in curry, especially for mixed rice dishes like Chap Chye Png and Nasi Briyani. There was also a huge uproar when McDonald’s ran out of Curry Sauce for McNuggets (they have since started selling it in bottles), and a near-riot when a neighbour complained about the smell of another neighbour cooking curry. Also, Gordon Ramsay can’t beat our laksa, even though I think that particular store he challenged isn’t the best one.

(Not everything is curry, of course, but if there’s no curry, generally, there must be chili. And woe betide those who eat the wrong kind of chili with the wrong kind of food. And here’s a PSA for foreigners - Chili Crab is largely for tourists. Take Black Pepper Crab or Salted Egg Crab instead. It’s possible to live as a weak sauce who can’t take spicy foods here, but less exciting. )

Happy 51st Birthday, Singapore! Here’s to the spread of our food all over the world! And a birthday wish would be for more kinds of our food to be shown in manga/anime. :D - O.C.N.

PS: By the way, Eizan Senpai, you can get Hainanese Chicken Rice for $3, and it is considered Street Food even though there are $30+ versions at hotels. Never eaten one with Jidori Chicken, though.

why do people say “don’t be a pussy” when talking about weakness more like “don’t be a man’s ego” because you know there isn’t nothing more fragile than that

“We seem to be made to suffer. It’s our lot in life.” -C-3PO

I made this to put on my wall for revision, but I thought it might be helpful for some of you guys too so I thought I would share it!

The anime ‘Romeo’s Blue Skies’ is based on a book about a true event which happened in the south of Switzerland unti the 19th century: young boys being sold to Milano to work there as chimney sweepers. There is also a German movie about it called ‘Die Schwarzen Brüder’ [the Black Brothers]. You can watch the trailer here

Solar System: Things to Know This Week

Add to your electronic bookshelf with these free e-books from NASA!

1. The Saturn System Through the Eyes of Cassini

This work features 100 images highlighting Cassini’s 13-year tour at the ringed giant.

2. Earth as Art 

Explore our beautiful home world as seen from space.

3. Meatballs and more 

Emblems of Exploration showcases the rich history of space and aeronautic logos.

4. Ready for Our Close Up

Hubble Focus: Our Amazing Solar System showcases the wonders of our galactic neighborhood.

5. NASA’s First A 

This book dives into the role aeronautics plays in our mission of engineering and exploration.

6. See More 

Making the Invisible Visible outlines the rich history of infrared astronomy.

7. Ready for a Deeper Dive? 

The NASA Systems Engineering Handbook describes how we get the job done.

8. Spoiler Alert

The space race really heats up in the third volume of famed Russian spacecraft designer Boris Chertok memoirs. Chertok, who worked under the legendary Sergey Korolev, continues his fascinating narrative on the early history of the Soviet space program, from 1961 to 1967 in Rockets and People III.

9. Take a Walk on the Wild Side

The second volume of Walking to Olympus explores the 21st century evolution of spacewalks.

10. No Library Card Needed 

Find your own great read in NASA’s free e-book library.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com.