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Blind Man Navigates Obstacle Maze Unaided

Posted by samzenpus on from the matthew-murdock dept.

iammani writes "The NYTimes runs a story about a blind man (blind because of a damaged visual cortex) successfully navigating an obstacle maze, unaided. Scientists have shown for the first time that it is possible for people who are blinded because of damage to the visual (striate) cortex can navigate by 'blindsight,' through which they can detect things in their vicinity without being aware of seeing them."

16 of 191 comments (clear)

  1. his eyes are fine by timmarhy · · Score: 4, Informative

    his brain is still able to make use of the input comming from the eyes which are undamaged. interesting.

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    1. Re:his eyes are fine by ceoyoyo · · Score: 5, Informative

      "Without a working visual cortex, nothing from the eyes enters the brain. At all."

      Whoopsie. Apparently you didn't know about the body of work showing that there are connections between the retina and subcortical areas as well as the striate cortex. Of course, if you'd read the article, you would have noticed they mentioned that.

      Yes, I read your other comments, including the one where you claim to have read the article. To summarize: you don't think it's possible... because .

    2. Re:his eyes are fine by Anonymous Coward · · Score: 5, Informative

      Maybe the problem is that TFA tried to make the science more approachable to people, but you obviously don't understand a single thing about blindsight. This is nothing new at all. In layman's terms, the participant still experiences visual sensation but not visual perception -- they can still see, but they are unaware of it. What is significant in this case is the extent of the damage to the visual cortex. The sensory compensation of congenitally blind people is incredible, but this is an entirely different phenomenon.

      Sight doesn't "occur" in the eyes, but there are a number of subcortical structures the information passes through before it gets to the visual cortex. Which, oddly enough, is exactly what they say in TFA, which you claim to have read. They specifically say that the "visual areas of the brain" did NOT "light up", so I have no clue what you're babbling about.

      The entire point of the article is that the extent of subcortical visual processing (which we are unconscious of) is greater than most people realise. So feel free to read it again and appreciate what is actually a well-established neurological phenomenon.

    3. Re:his eyes are fine by sveard · · Score: 4, Informative

      http://www.amazon.com/Physiology-Behavior-MyPsychKit-Neil-Carlson/dp/0205593895/ref=pd_bbs_sr_1?ie=UTF8&s=books&qid=1230187013&sr=8-1
      Chapter 1 has a short item on blindsight and it's relation to consciousness. You should really read chapter 1 of this book.

      IMHO, sight doesn't happen as much in the eyes as it does in the brain.

      Well, that's how the brain does its thing. Your eyes, ears, nose, skin, are instruments that extend from the brain. Data that flows from your senses to your brain lacks meaning until the brain processes it.

      A few posts earlier you say:
      ( http://science.slashdot.org/comments.pl?sid=1072951&cid=26228425 )

      Without a working visual cortex, nothing from the eyes enters the brain. At all.

      Blindsight does not imply that the visual cortex does not "work". Have a look at http://en.wikipedia.org/wiki/Primary_visual_cortex

      Data still flows from the eyes over the optical chiasm to the primary visual cortex (the cortex around the calcarine fissure in the occipital lobe). From there, there are multiple "streams" of visual data. One of those streams is the one that "enters" consciousness.

      It is the absolute certainty with which you refute the previous, and the postulation of the following near-superhuman senses that make you appear rather uninformed and quite arrogant.

      Most likely, he is using sound or air pressure. Blind people can often maneuver by hearing things like subtle changes in sound of footprints, etc., echoing off of or being aborbed by walls, etc. There are also subtle changes in air pressure as you approach obstacles, and that can often be 'felt' by blind people.

      Take a biological psychology course or your own medicine (your signature)

      http://www.scholarpedia.org/article/Blindsight
      http://en.wikipedia.org/wiki/Blindsight

    4. Re:his eyes are fine by Tekoneiric · · Score: 4, Informative

      Most likely those subcortical connections are there as a link to the reflex system. High level visual processing would likely take too much time to process for reflex action. Damage to the subcortical links but not to the visual cortex would likely make for someone that's slower to react to visual stimulus and very clumsy.

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    5. Re:his eyes are fine by iocat · · Score: 3, Informative
      Actually, if you look at the video found here , you'll see that your theory of human echo-location is totally inadaquate to describe what he is doing -- he avoids the walls, but also an overhead projector on the floor and some really small items.

      If you RTFA (I know, a big assumption -- Google can take you to the no-registration-required SciAm version), they say that scientists suspect there are other pathways where the info is getting into his brain, even though his visual cortex is totally destroyed on both hemispheres. This is the first blindsight demo with NO visual cortex, and thus seems to suggest strong that there are some alternate pathways going on. He can also react to facial expressions.

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    6. Re:his eyes are fine by MillionthMonkey · · Score: 2, Informative

      "No, he's not. Without a working visual cortex, nothing from the eyes enters the brain. At all. Most likely, he is using sound or air pressure."

      The signal from the optic nerve doesn't go exclusively to the primary area of the visual cortex- it forks at the lateral geniculate nucleus before it gets there and some also goes to subcortical targets which provide functions like the flinching reflex. These are older pathways and modern vision evolved by eavesdropping on the signal.

  2. Re:Ben Underwood by Gabrill · · Score: 4, Informative

    TFA specifically states that they ruled out echolocation.

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  3. Uhno by ShakaUVM · · Score: 4, Informative

    This is hardly the first time blindsight has been demonstrated. I recall Ramachandran at UCSD doing experiments on it a while back.

    One of the more mind blowing things I read in 2008 was the discovery of a third type of visual receptor besides rods and cones. Essentially there's a third type of receptor that only detects sort of gross levels of light, and feeds directly into the system which regulates your circadian rhythm and is used for some other purposes. People that were completely blind were able to tell when light levels were fluctuated in a large way, like walking in front of a TV, and be totally puzzled how they knew that, since it didn't register as sight at all for them.

    The fact that these neuroscientists would call it the first evidence for blindsight means that either they really didn't read their papers very well, or it was a bad article summary on Slashdot.

  4. Registration required by Mozk · · Score: 5, Informative

    From bugmenot.com:
    Username: arizonafrank
    Password: poochie

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  5. Blindsight, Deafhearing and Alien Limbs by DynaSoar · · Score: 4, Informative

    There are two distinct causes of blindsight (and deafhearing and alien limb syndrome), damage to the primary sensory cortext but not the secondary or assosiation cortices, and damage to the association cortex, but not the sensory.

    The latter is easy to explain. The person can perceive, but can't incorporate the fact of it into their conscious experience. They can't "own" the perception. This is very often found in damage to the somatosensory cortex which leaves partial paralysis. Often the person can't perceive the limb attached to their body as 'theirs'. Sensations in the limb do not become perceptions for them. Similarly, vison and hearing can occur, and the brain can make use of the data, but the person can't perceive it because it's not coming from "them".

    The former is harder to explain. There seems to be a parallel visual (and auditory) system through which information can pass and the brain make use of, but which bypasses the association cortex. The person can't perceive normally, but if tested they react as if they can. They can, for instance, consistently "guess" the number of fingers shown them. There is a similar system for somatosensory. Perception of touch to, say, the hand, has highly detailed "maps" elsewhere on the body. For the hand it's on the cheek and on the back just below the shoulder. Just why this secondary pathway exists is a mystery. But it does, in most people.

    Around 20 years ago in Coevolution Quarterly there was an article about a 'school' in (IIRC) New Mexico that taught people to use their blindsight to navigate in the desert at night. The secondary visual pathway that persons with the second form of blindsight use, exists intact in everybody. It's not something you develop because of damage, it's something that's there in case you need it but below the level of consciousness so as not to interfere with normal perception. Occasionaly hunters, hiker/campers or survival technique practioners will hear of a person who can literally run through a pitch black forest without running into anything. These people have the ability to react to the subliminal perception from the secondary visual system in what occurs to them as instinctive reactions because they don't consciously perceive anything.

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  6. Video of the experiment - from BBC by iammani · · Score: 4, Informative

    Heres a video of the man walking through the obstacles - from BBC
    http://news.bbc.co.uk/2/hi/health/7794766.stm

    Ps: Found this after 'Submit'ting to slashdot

  7. Re:Its not that hard by GarrettK18 · · Score: 5, Informative
    Full disclosure: I was born 3.5 months premature, and my retinas detached at 4 months.

    I call it being able to hear the "sound shadows" of objects, because that's really what they are - an object blocks sound, and that blockage is projected to the ear. With a good cane, I can navigate around tables, columns, and even position myself relative to peoples' voices to keep myself from running into them. It's quite amazing what you can tell with a good hallway, and a constant sound source (soda/vending machines are good). For example, an open, echoy space usually means a stairwell.

    Also, randomness ... the first time I went to post, my screen reader was very sluggish and crashed. I guess Slashdot hates blind Linux users.

  8. Video at NPR by eefsee · · Score: 2, Informative

    A video of the blind man walking down the corridor accompanies this story at National Public Radio.

  9. Re:Its not that hard by sjames · · Score: 2, Informative

    While that is true, that's not what's happening here. In the case from TFA, the man is not conscious of any visual sensory input, but IS able to subconsciously make use of visual information. Also from TFA, he has the same subconscious responses to being shown pictures of people's faces displaying various emotions and other responses that cannot be due to echolocation.

    In another experiment (not part of TFA) a number of subjects with cortical blindness were able to accurately state which direction a dot of light was moving across a screen at a rate far above chance. It is suggested that they can improve upon their results with practice.

  10. Re:Its not that hard by asCii88 · · Score: 2, Informative

    RTFA. Of course he would hit the obejcts. The article states that the person needs working eyes and that the vision he gets is unconcious.