Do we even need our brains ? – Some Scientists aren’t so sure

MRI Brain

Once during a discussion, a respectable someone (who I won’t name) suggested to me:

“I believe the seat of the self is the heart. Not the brain!. I laugh at these scientific notions stating consciousness is in the brain. I believe in the future scientists will also accept the true seat of the self is in the heart..”

He went as far as suggesting we ‘think’ with the heart as well. Out of respect, I refrained from saying anything in person, but inside I was thinking “that’s ridiculous!” This person is very invested in eastern Yogic, Sufi, and Buddhist ideas. Which gave me some perspective on his views, but all the same (being a man of science myself), I rejected them entirely. Though I have high respect for such (Buddhist) ideas myself when they lead to rejecting empirical evidence they fail for me greatly.

This person then suggested that there was evidence to support his claim. He referenced to stories of normal people who on brain scans were found to have no brain in the skull, only water! Again I was thinking that’s preposterous. Probably some anecdotal stories which get exaggerated as Chinese whispers.

I was greatly surprised and humbled when I found out that those stories were actually with some merit!

In Dec 1980, Roger Lewin published an article in the Journal ‘Science’, titled: “Is Your Brain Really Necessary?” [1]

This article was based on case studies (hundreds of them) done by British Neurologist, Professor John Lorber on patients with hydrocephalus. Particularly focusing on one case. The case of a university student who had an IQ of 126 and had gained a first-class honors degree in mathematics, and was socially completely normal. But on doing a brain scan they found he for all practical purposes did not have a Brain!

The anatomy of the brain - containing its mechanism and physiology, together with some new discoveries and corrections of ancient and modern authors upon that subject - to which is annex’d a (14784527925)
Inside the skull, with no brain tissue

Instead of the normal 4.5 cm cortical thickness, he only had about a 1mm thin layer. The rest was just CSF (Cerebro Spinal Fluid) which is practically water. This had likely happened due to a slow displacement of the cortex outwards (and against the skull) because of increasing pressure and quantity of the CSF fluid. This meant that the deeper, more primitive, structures were relatively more intact (although still under pressure to shrink and likely not normal either).

This case was well documented and has been greatly debated, including in the original article. The leading explanation seems to be of neuro-adaptation (which has also been called a cop-out). Nevertheless, it still remains difficult to explain away such observations. As Emeritus Professor William Reville states [2]:

“I certainly cannot explain Lorber’s observations, except to note that in some cases the brain shows itself to be amazingly adaptable and capable of servicing the body in a manner equivalent to the familiar “normal” brain, even though its volume and structure is remarkably compressed and distorted.”

Lorber’s other interesting observation was that this isn’t a unique finding either. In fact, in his studies, 50% of people with more the 95% of the cranium filled with CSF still have an IQ greater than 100![1]

Now I don’t know why this hasn’t shaken the field of neurology as it should have. I, on the other hand, find it earth shattering.

Perhaps neuroadaptation can explain some take over of functions. But surely having a 50 to 150 grams brain (and only a millimeter thick cortex) compared to the normal 1.5 Kg brain should have huge impacts on cognition. Our neurological theories usually associate the cortex with specialized areas of processing e.g. sensory cortex, motor cortex, auditory cortex, visual cortex etc. Some other functions include abstractions, calculation, sequencing, memory etc.

Blausen 0102 Brain Motor&SensoryApparently, it seems all these specialized areas get compressed and mushed into a millimeter thick layer and still function properly. Although there is no mention of the morphological changes in this article. Other and more recent research suggests there is extensive axonal, cytoskeletal and synaptic damage with hydrocephalus. There is relatively less neuronal death. However secondary changes are observed in neurons as well. [3][4][5]

There is such great damage to the communication apparatus yet still normal levels of intelligence and cognition! Does this not beg some reflection on our current direction of understanding? Most of our theories center around communication and signaling having a central role.

The reduced space would also reduce the ability to form new interconnections between neurons, as the shape of the cortex changes to a flatter one. These new interconnections are a fundamental basis for how we generally understand brain activity and how we explain learning and memory.

Take for example Grid Neurones which have been experimentally shown to be located in the entorhinal cortex and which along with Place Neurons (the discovery of which earned the 2014 Nobel prize in Medicine and Physiology) constitute the navigation system within animals and humans [6][7]. The mechanics of Grid neurons are complex but an essential component is their ‘Modular Organization’ (a good article describing this can be found here). This is an example of the ‘spatial’ organization of neurons having a specific and integral purpose. Now I wonder what happens when these also get compressed and distorted in shape, how should it still be possible to have a working navigation system?

If we consider that the 1 mm thick brain is still fully responsible for all the cognitive, conscious and subconscious processes then at-least we have to concede that all these processes (including consciousness) are much simpler and should be easier to explain. The brain then shouldn’t be immensely complicated. This view would also lend support to the idea (which is my personal intuitive inclination as well) that consciousness has more to do with the specific configuration into which a human brains develop rather than being dependant on any specific structural parts and/ or complexities of specialized areas.

Overall this article made me much more malleable in my views. And it goes to show how sometimes especially in social sciences we are biased towards deriving conclusions based on population or summated data. By finding the best fit or a generalizing principle from a collection of individual data, where as overlooking the significance of the individual data itself.

Does that mean we Think with our Hearts?

This still sounds like a ridiculous conclusion, after all the heart as we know is mostly made up of cardiac muscle tissue.

However humbled away from my previous staunch opinions I tried to dig a little into such murky waters and found some very interesting things.

An article published in 2003 in The Guardian suggested, based on anecdotal evidence, a concept of transplanted memories. Apparently, such memories occur in some heart transplant patients. Who develop new tastes or have a change of personality, which are similar to the original heart donor.

A few other concepts of interest are also suggested in the same article. Firstly of the ‘Auerbach Plexus’ functioning as a second brain in the gut. Which may govern emotional responses or ‘gut feelings’. Secondly of the idea that neuropeptides, which are found in the whole body, give a sense of ‘self’ and are carriers of our emotions and memories.

NeuropeptideY 1RON
Neuropeptides may carry a sense of self, memory, and emotions

Now, in general, these do not come across as very plausible to me. At least not the extent of explaining the full picture of what we observe. However, it does seem that scientists and not eastern mystics are the ones who have suggested these ideas and/or are working on them.

I found a good article in Namah Journal (the credentials of which I’m not sure of). It goes into some detail covering much of these alternate ideas and many others [8].  It also does provide a list of references at the end to back-up the claims and hypothesizes.

To sum up, personally, I don’t know whether to accept alternate explanations or whether to look at ways in which neuroplasticity in itself might be sufficient. Either way, it does make a dent in my preconceived ideas and I am humbled by that.

So what do you think?


References
  1. Roger Lewin (12 December 1980). “Is Your Brain Really Necessary?“. Science210 (4475): 1232–1234.
  2. https://www.irishtimes.com/news/remarkable-story-of-maths-genius-who-had-almost-no-brain-1.1026845
  3. https://onlinelibrary.wiley.com/doi/10.1002/ddrr.94/abstract
  4. https://www.ncbi.nlm.nih.gov/pubmed/16848091
  5. https://www.sciencedirect.com/science/article/pii/S030645220100166X
  6. https://www.nature.com/nature/journal/v436/n7052/abs/nature03721.html
  7. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4042558/
  8. https://www.namahjournal.com/doc/Actual/Memory-transference-in-organ-transplant-recipients-vol-19-iss-1.html

6 comments

  1. On the issue of hydrocephalus, the neuroskeptic took at a look at it in a post a while back:
    http://blogs.discovermagazine.com/neuroskeptic/2015/07/26/is-your-brain-really-necessary-revisited/
    The TL;DR is that the cerebral cortex itself appears to be intact in these cases, but the white matter, the connecting axons between the thalamus and other subcortical regions and the cerebral cortex appear to be less dense, although not non-existent.

    He also notes that Lorber never actually published his results in a scientific journal. The articles that have been published sound like they’re second hand accounts. For findings this striking, that’s a red flag for me, that we may not be getting the full story, or one with key details distorted.

    My experience is when we come across extraordinary reports that apparently should be revolutionizing a scientific field, but aren’t, it could be because that entire field is blinkered, but it’s much more likely to be because the extraordinary reports aren’t what they appear to be.

    In general, I’ve become pretty jaded with medical miracle stories. Most, once carefully investigated (which often isn’t possible), turn out to be misleading or outright bogus.

    1. Thanks Mike for pointing me to that critical review. I feel inclined to this position as well. However, I am cautious in jumping to conclusion in such cases. Because I feel when a notion has become very well established it becomes easier for us to dismiss any competing ideas casually.

      For example, in this story, it seems Professor Lorber first presented his findings at a conference where (as expected) he was criticized for being less than scientific and over dramatic. Then similar findings were reconfirmed in 2007 by French and Brazilian scientists adding some weight to his claim.
      The claim isn’t that the brain is useless but a question at it’s conceived function and importance. At least after the recent reaffirmation, we are beginning to question how important white matter is in the overall picture.

      But in my own opinion, I’m a little skeptical of that neuroskeptic article. They casually state that “.. the bulk of the grey matter of the cerebral cortex, around the outside of the brain, appears to be intact and in the correct place”. But when I look at the grey matter it does appear to be reduced in size than the normal brain.
      They also say “I wonder also if the white matter might be denser than normal i.e. if the fibers were packed together due to being gradually compressed by the expanding fluid spaces?”. This seems to be a purely speculative question yet seems to give their argument some weight and eventually help dismiss the seriousness of the original article.

      I can’t see Neuroskeptic quoting any evidence to support their claim that the grey matter is largely unchanged (in severe hydrocephalus) and of their speculation about the white matter condensing and being enough in its function.

      With regards to Dr.Lorber, his claim was of cortical thickness being 1 mm (which is much thinner than the above example and which we do know is possible in extreme cases). Are we saying he was lying or incompetent? I guess that will determine whether we believe his results or not.

      1. On Dr. Lorber, I don’t think we have enough information. All we can say is that he didn’t publish his results through an avenue that would have required him to submit his methods, evidence, and conclusions to peer review. Maybe he tried and couldn’t get past the review stage, or maybe he never bothered.

        But the thing is, extraordinary claims require extraordinary evidence. When someone makes claims that purport to overthrow decades of neuroscience, the burden of proof is on them, as it should be. Definitely we must be willing to revise our theories on new evidence, but it must be reproducible or verifiable evidence, not the hearsay of evidence.

        It’s worth noting that neuroscience is a field that is always revising its models based on neurological case studies, often from just one or a few patients. Think about Patient HM, whose case changed our understanding of the hippocampus, or the blindsight patients who complicated our understanding of how vision works, or Roger Sperry’s split brain experiments. It’s hard to imagine if there were as many of these cases as Lorber implied, that neuroscientists wouldn’t be all over it.

        1. Yes, I agree perhaps we would need much more evidence to accept Dr. Lorber’s position. Yet I must say he did present his findings at a conference to his peers and to their scrutiny, the ensuing discussion has been captured (may be not fully) in Roger Lewin’s article. But I agree this isn’t the way we normally do science and it is an extraordinary claim.

          But I equally don’t think casual dismissal like the one neuroskeptic were doing is scientific either. We need evidence either way. And in the case of the recent 2007 articles, it does seem more like a minimisation of findings (would you agree ?). At least we need to look at our associative/ integrative theories which rely mostly on the communication between regions.
          What is also interesting is that generally such extreme cases of hydrocephalus are associated with all kinds of serious cognitive impairments and intellectual decline, so why the disparity?

          On the whole I am slightly less convinced of the direction of our approach and am inclined towards casting a broader net. Which might include some alternate ideas coming into the scrutiny as well.

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