Tag Archives: Reading

Dr Kevin Mitchell explains how genetics works with learning in the development of synaesthesia

My blog has two main themes, and one of them is exploring the relationship between super-recognition and synaesthesia. This theme was the main point of the very first posting in this blog, a description of an unusual experience of mine, which opened up a wonderful journey of exploring undiscovered relationships between interesting concepts in neuroscience, psychology and immunology. In my blog I have also asserted that there’s a reason why both synaesthesia and special abilities in reading and literacy-based skills seem to run in my family tree.

If you were wondering how the brain-based characteristics of super-recognition, synaesthesia, precocious reading and superior ability in reading and writing might be connected, I recommend that you have a read of this blog posting from Dr Kevin Mitchell, a researcher in developmental neurogenetics based in Ireland.

Mitchell, Kevin Schema formation in synaesthesia. Wiring the Brain. (blog) May 10th 2016.

http://www.wiringthebrain.com/2016/05/schema-formation-in-synaesthesia.html

 

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Article about the vertical occipital fasciculus in November 2015 issue of Discover

Try saying that fast!

Blair, Jenny Lost and Found: How a pair of scientists rediscovered a part of the human brain. Discover. October 1 2015.

http://discovermagazine.com/2015/nov/5-lost-and-found

 

If dyslexia isn’t a visual problem, then what is it?

Forget colour overlays – dyslexia is not a vision problem. by Clare Wilson

New Scientist. 25 May 2015.

Do you want to know my theory about dyslexia? I think dyslexia is a lack of synaesthesia, for two very good reasons. Firstly, if you break the act of reading down into its most basic element (phonics or translating graphemes into phonemes), it is basically synaesthesia in which visual symbols as a visual stimuli evoke an experience of language sounds. Reading is basically hearing symbols, and that experience of language sounds further triggers the experience of concepts being triggered by language sounds. I know that things as complex as concepts can be synaesthesia concurrents because I myself experience a number of varieties of synaesthesia in which quite sophisticated concepts are the concurrents. I think the reason why some people are poor at reading or slower to pick up the skill is identical with the normal genetic variation in the degree which people are more or less syanesthete. There is debate about how much evidence has been found by researchers about brain structure and syanesthesia, but I still think it likely that syanesthesia is the result of a hyper-connected brain, and I think the opposite is true of dyslexics, and I believe the theory of dyslexia and hypoconnectivity is nothing new in dyslexia research.

The second reason why I think dyslexia can be regarded as the opposite of synaesthesia (even though I’m open to the possibility that there could be some individuals who have both conditions for reasons unknown) is that in my family of blood relatives we have a pedigree of generations who have a profession that primarily deals with the written word or have scored in academic selection tests in the highest levels of percentiles in reading, writing and general literacy skills, even though their results in other academic areas are above average but not exceptional, and most of these people appear to be grapheme-colour synaesthetes. I believe this association is not random, but such a relationship can only be proven by studies done by researchers on large numbers of people, and if any researcher would like to put my theory to the test and publish the results I would expect that I would be appropriately credited in their research paper.

Radio show about Glenda Parkin living with dementia in suburb of Perth, Western Australia

Below are the details of a recent and very interesting radio interview on Perth public radio with Glenda and Bronte Parkin and Alzheimers WA CEO Rhonda Parker, focusing on Glenda’s experiences as a person who has a form of dementia that goes by a number of names including Benson’s syndrome, posterior cortical atrophy and PCA. This is not the first time that Glenda has shared her story with the media; she previously shared her story with Perth’s daily newspaper, the West Australian, in 2011 and she has recently been interviewed for the Community Newspaper Group.

I have unusual reasons to be grateful that Glenda has shared her story with the mass media. I happened upon her story in a copy of the West while I was enjoying coffee and one of those wonderfully greasy Sausage and Egg McMuffins in a McDonald’s restaurant in 2011, after dropping someone off to a selective school that offers students places based on high ability in the area of literacy and languages. I became intrigued by the fact that the particular type of dementia described in the article appeared to be a mirror-image of the pattern of intellectual gifts that appear to run in our family, associated with synaesthesia, a harmless, genetic, developmental and memory-enhancing condition that is caused by increased connectivity in the structure of the white matter of the brain. I wondered whether there could be an undiscovered developmental basis of Benson’s syndrome that works like the opposite of synesthesia, or could it be caused by some mature-age dysregulation of some chemical that regulates growth in the parts of the brain that seem to be hyper-developed in our family, and attacked, over-pruned or somehow damaged in Benson’s. I wrote about my ideas in this blog soon after. In 2012 my thinking on this theme took an important and exciting leap ahead when I happened across a brief article in New Scientist about research by Dr Beth Stevens on microglia, complement, synaptic pruning and elements of the immune system playing a central role in the development of the brain. I figured that one or maybe more of the complement chemicals could be the chemical that regulates growth or pruning in the parts of the brain that I had written about and attempted to identify in my 2011 blog post. I wrote a brief outline of these ideas at this blog in 2012 in an article that was archived by the Internet Archive Wayback Machine in 2012. In lat 2013 I got a big surprise when I saw my idea linking the immune system with synaesthesia as the main idea of a research paper published in a peer-reviewed neuroscience journal, and all without my permission! That’s another story….

I am sure that many people listening to this radio interview would be fascinated with or even skeptical of Glenda’s account of being able to see but not perceive letters on the cover of a book. Her eyesight is not the problem, the problem lies in the visual processing areas of her brain and because of this a lady who in her impressive career has been an author of books can no longer read text or interpret symbols. Seeing is as much done in the brain as it is done in the eye and optic nerves, and a person who has no apparent problem with their eyes can lose visual perception as the result of dementia or injury or stroke.

“Simple things can be very frustrating” – Glenda and Bronte Parkin on dementia. Mornings with Geoff Hutchison. 720 ABC Perth.
09/07/2014.
http://blogs.abc.net.au/wa/2014/07/simple-things-can-be-very-frustrating-glenda-and-bronte-parkin-on-dementia.html

Jarvis, Lucy Still making a contribution: retired educators share experience of living with dementia. Community Newspapers. 2015

Hiatt, Bethany Penrhos principal’s hardest battle.  West Australian. January 3, 2011. http://au.news.yahoo.com/thewest/a/-/mp/8588194/glenda-parkin/

Postscript March 10th 2015

The West Weekend liftout of the West Australian of February 14-15 2015 has a feature story about West Australians livng with dementia on pages 10-13. he story of Glenda and Bronte Parkin is included in that article and the content makes it clear that although Glenda Parkin has a diagnosis of Benson’s syndrome which has had a negative impact on her ability to recognize symbols, writing and objects, she can still somehow navigate her way in her neighbourhood. I find this interesting as some people who have prosopagnosia, which is an impairment in face memory, also have a similar impairment in visual memory of scenes or landscapes, and thus have serious problems with navigating their way through streets and neighbourhoods. I had thought that Benson’s syndrome, a type of dementia, and prosopagnosia, a developmental disability and also sometimes acquired from brain injury, must be in many ways similar in their manifestations, as they both feature disability in face recognition, but it appears that it is not safe to make assumptions and maybe each case of these two conditions should be considered unique. I do not recall reading about Glenda Parkin’s ability to recognize faces, so maybe I should assume it is still normal, along with her ability to recognize street-scapes and scenes.

Yeoman, William Open minds. West Weekend. p. 10-13 West Australian. February 14-15 2015.

 

Finding confirmation of my beliefs and ideas, as you do

A closely related family member of mine recently scored a perfect mark on an adult literacy test geared to normal adults (which was true to form) , and another closely related family member in mid-childhood recently explained that they perceive motor vehicles as having faces and they categorize cars, utes and 4WDs into genders, square old 4WDs being male. I can see how that makes sense, but all the same I’ve never been that much of a car personifier. Ever since I was a child I’ve personified numbers and alphabet letters in great detail, along with perceiving them as essentially associated with very specific colours, and the shapes and motions of cars often make me think of hunting animals in some deeply instinctive way, but unlike my young relative and the many Australians who decorate their own motor vehicles with oversized curly eyelashes or giant imitation testes, I don’t see motor vehicles as male or female.

On the surface most people seem pretty-much normal and average, but if you make the most superficial investigation by testing or speaking with people about their thoughts and perceptions, you might find that there is an interesting and sometimes significant range of differences in the way our minds work. Grapheme-colour synaesthesia, personifying synaesthesia and elite and precocious levels of ability in reading, spelling and general literacy are just some of the interesting things that run in my family and are also experienced by me, and I am also a super-recognizer. A super-recognizer is a person who has an elite level of ability in recognizing faces or face memory, and typically can achieve perfect or near-perfect scores on tests of face memory. I believe that this co-occurrence of synaesthesia and elite abilities in face memory and literacy are no coincidence. I believe all of these things are based on hyper-connectivity or hyper-development in the rear parts of the brain including the fusiform gyrus, and also in the right hemisphere of the brain. I believe the genetic basis of this development might be linked to genes that code for particular variations in the functioning of the immune system, possibly involving the complement chemicals, microglia and synaptic pruning. I’m fascinated by the possibility that research work that has been done in the last decade linking immunology and neuropsychology can inform us about the origins of synaesthesia and also specific gifts and deficits in memory and cognition, and maybe also inform us about some types of dementia. In 2012 at this blog I explicitly identified research on the immune system, complement, microglia and synaptic pruning done by Dr Beth Stevens as a possible explanation for the origins of developmental synaesthesia, an idea that was so good that some synaesthesia researchers made it the basis of a speculative paper that was published in a peer-reviewed journal last year (they forgot to acknowledge me as the first to publish this idea). Work done on MHC1 (part of the immune system) and the brain by Carla Shatz is another area of scientific research that I find tremendously exciting, and I believe that the general area of research on the relationships between brain structure and the immune system is of such originality and importance that it should attract one or more Nobel Prizes.

Would you like to follow these steps?

First go the the Internet Archive (Wayback Machine):  https://archive.org/

Then copy and paste the web address of this blog into the search form that you will find there, removing the beginning bit, and click on “BROWSE HISTORY”:   https://superrecognizer.wordpress.com/

The results screen that comes up will show you how many times this blog has been archived by the Internet Archive over the years.

Click on the year 2012, then click on the date June 21st 2012.

The Internet Archive will display to you their archived record of the home page of this blog as recorded on June 21st 2012. You will see a blog coloured in green and blue with stories featuring photos of some sculptures seen around Perth, but the thing that you might (or might not) find interesting is the blog post that is third down the page which was first published on June 7th 2012. This is the blog post where I briefly but clearly published my ideas suggesting causal relationships between the human immune system and synaesthesia, and low levels of some of the complement immune chemicals and synaesthesia, all related to the regulation of developmental synaptic pruning and synaptic plasticity involving the activity of microglia, and in this post I also restated my previously-published speculation that the variety of dementia known as Benson’s syndrome or posterior cortical atrophy could be regarded as the opposite of developmental synaesthesia associated with special abilities in visual perception such as super-recognition ability and exceptional reading ability, a cluster of traits that appears to run in at least one family. Got that? The point I’m trying to make is that I published this stuff in June 2012, I thought of these ideas independently and as far as I can tell no one else had previously published these ideas anywhere, including in scientific journals.

Now take a look at this paper in a neuroscience journal which was published in 2013 and was received by the journal as a draft or manuscript on July 31st 2013:  http://journal.frontiersin.org/Journal/10.3389/fnhum.2013.00563/full

Do any of the themes in the paper seem familiar? Does my blog or myself receive any credit or acknowledgement in the paper? Hmm.

Regardless of any issues related to originality or acknowledgement, the important point in all of this is that here we have some ideas about a type of dementia which could conceivably have some medical or scientific use or value. My idea of linking synaesthesia with the immune system is nice but just a step in a possibly much more important sequence of ideas. I’d like to give those ideas another airing, while also restating that I thought of them a long time ago independently and claim all due credit. I hope you don’t mind.

Backs up my ideas

I was reading through back issues of New Scientist, and I found a brief article about the work of researcher Sophie Scott and other researchers, written by Simon Makin. This article is about one theory of dyslexia winning out over another. The theory that seems to be the most compatible with recent research findings is the theory of dyslexia as a “disconnection syndrome” resulting from poor connections between particular regions in the brain. The competing theory of dyslexia as a disability stemming from subtle problems with hearing speech sounds is apparently being debunked.

What relevance does this have for my theories and ideas about synaesthesia and visual perception? The theory of dyslexia as a problem of hypoconnectivity in the brain is not new, but it is nice to see it winning favour among researchers because it fits well with observations that I made years ago at this blog that there seems to be a cluster of phenomena linked to grapheme-colour synaesthesia in my family, and some of those phenomena are exceptional gifts in specific areas of literacy, including spelling, writing and reading, identified by professional and independent testing for selective school entry, as well as precocious reading and one case of superior face memory (a super-recognizer). A few years ago at this blog I contrasted this combination of literacy and visual memory gifts found along with synaesthesia (a sensory-perception phenomenon that researchers have found is caused by greater than average connectivity in the brain) with what I have argued is the opposite condition of a type of dementia named Benson’s syndrome which has loss of ability to read, spell and recognize faces as symptoms of atrophy at the back of the brain, the general area of the brain that I theorized is hyper-developed or hyper-connected in some members of my family, including myself. Although dyslexia isn’t the same thing as Benson’s I think the evidence about dyslexia fits in nicely with my ideas. If a reading disability is caused by hypoconnectivity in the brain, that does seem to support my idea that reading superiority can be caused by the same difference that makes a brain a synaesthete brain, that difference being hyperconnectivity. The hypoconnected dyslexic looks like the opposite of the hyperconnected synaesthete who has always been ahead of his or her peers in reading and writing, and perhaps even taught him or herself to read before grade one.

Nothing simple about dyspraxia

A case of dyspraxia with possible prosopagnosia and significant issues with fine motor skills such as using zips and buttons and handwriting, but Victoria Biggs was also a precocious reader and an academically very high achiever as an adult. Fascinating! This case is evidence against my idea that reading, face memory and fine motor skills should cluster at similar levels of ability; high in my case and low in people who have Benson’s syndrome. But I think it is interesting that in Ms Biggs’ case she is at the extremes of levels of ability in all three. In the radio show other issues mentioned include finding one’s way through streets (suggestive of topographical disorientation or DTD), poor ability to plan including planning motor tasks, difficulty reading facial expressions and as a result difficulty reading social situations, and also displaying odd facial expressions. I’m amazed that the term “autism” didn’t come up once in this story, because there seems to be so much in Ms Biggs’ story that overlaps with countless accounts of autism or Asperger syndrome, not that I think autism would be an appropriate label. I don’t. I’d love to know whether Ms Biggs is a left-hander.

Victoria Biggs is the author of Caged in Chaos—A Dyspraxic’s Guide to Breaking Free.

Living with dyspraxia. presenter Amanda Smith

The Body Sphere. ABC Radio National.

Thursday 27 March 2014

http://www.abc.net.au/radionational/programs/bodysphere/clumsiness/5348588

http://www.abc.net.au/radionational/programs/bodysphere/caged-in-chaos/5326564

Some ideas that I’d like to (explicitly) lay claim to (right now) in 2014

A note of warning – If you are thinking about copying or plagiarizing any of the text, ideas or descriptions in this post or using it in your own work without giving me (C. Wright, author of the blog “Am I a Super-recognizer?”) the proper acknowledgement and citations, then think again. If you do that you will be found out and my objection will be well publicized. If you believe that you published any of these ideas before I did, please let me know the details in a comment on this article. If you want to make reference to this blog post or any of the ideas in it make sure that you state in your work exactly where you first read about these ideas. If you wish to quote any text from this post be sure to cite this post at this blog properly. There are many established citation methods. If you quote or make reference to material in this blog in your work, it would be a common courtesy to let me know about your work (I’m interested!) in a comment on any of the posts in this blog. Thank you.

The idea that Benson’s syndrome or posterior cortical atrophy or PCA, a variety of dementia, is caused or develops in a way that can be seen as the opposite of the synaesthesia linked with exceptional visual memory and literacy skills that runs in my family (this idea has been explored previously in this blog).

The idea that the above cited states develop or are caused in a way that makes them seem like opposites because they both affect the same or similar areas of the brain, but in opposite ways.

The idea that the above described process happens because Benson’s syndrome and our variety of synaesthesia are both mediated by the same or similar natural chemical or cells or biological agent in the brain, one caused by high levels of the mystery substance and the other caused by low levels (a hypothesis that I briefly suggested in January 2011).

The idea that one of the many known or unknown elements of the immune system that impact brain development is the mystery substance referred to above (a hypothesis that I briefly outlined in 2012).

The (implied in above ideas) idea of the immune hypothesis of synaesthesia. (This idea was first published by me in 2012 in a blog post archived here, was I believe plagiarized in 2013 here, and was the subject of my plagiarism claim here.)

The idea that one or more of the complement immune chemicals is the  mystery substance referred to above.

The idea that the C3 complement immune chemical  is the  mystery substance referred to above.

The idea that synaesthesia is linked with one or maybe more immune diseases or conditions caused by low levels of complement.

The idea that genes for synaesthesia stay quite common in the gene pool because of some associated cognitive advantage (probably superior memory) that balances out any disadvantages caused by deficiencies in the immune system.

The idea that some or many people unintentionally experience a memory process that operates in a similar way to the method of loci memory technique in their everyday lives, unintentionally forming long-term associations between individual learned concepts and individual visual memories of scenes (I have named this phenomenon Involuntary Method of Loci Memorization or IMLM).

The idea that IMLM operates in such a similar way to synaesthesia that one could argue that it is a type of synaesthesia.

The idea that synaesthetes are more likely to experience IMLM than non-synaesthetes.

The (implied) idea that the method of loci memory technique is similar to or a type of synaesthesia.

The idea that synaesthetes might have a natural advantage in using the method of loci because the method of loci is similar to or is a type of  synaesthesia. This idea that seems likely in light of the case of “S” the Russian memory performer with many types of synaesthesia described by Luria. 

The idea that IMLM is a phenomenon that is caused by enhanced synaptic plasticity throughout the life span.

The idea that IMLM is a phenomenon that is caused by enhanced synaptic plasticity throughout the life span and can thus be used as an indicator of which synaesthetes are synaesthetes due to enhanced synaptic plasticity throughout the life span rather than other possible causes of synaesthesia. Support for this idea comes from the fact that IMLM appears to be a non-developmental variety of synaesthesia that can form new long-term associations in adolescence and adulthood.

The idea that IMLM is a phenomenon that is caused by the unusual possession of levels of synaptic plasticity typical of a young child, during adolescence or adulthood.

The idea that IMLM is caused or enhanced by some characteristic of the immune system that affects the functioning of the brain. Many different elements of the incredibly complex immune system are thought to affect the functioning or development of the brain, and could thus be involved in IMLM, including the complement system, microglia and the MHC class I molecules. Researchers such as Beth Stevens and Carla Shatz have investigated this exciting area of neuroscience. In 2012 I hypothesized at this blog that synaesthesia could be caused by low levels of complement, this idea implying that the immune system is directly involved in synaesthesia (or at least some cases of synaesthesia). I believe these ideas were plagiarized in a paper published in 2013.

The idea that IMLM is similar to the “Proust phenomenon” in that it is very similar to synaesthesia or is a type of synaesthesia and involves episodic or autobiographical memory as a concurrent.

The idea that phonics as a foundational reading skill is similar to or is arguably a type of synaesthesia in that it involves the involuntary association of individual speech sounds with individual printed letters or combinations of letters, as the result of learning in early to mid childhood.

The idea that at least one type of dyslexia is like a deficiency of synaesthesia.

The implied idea that if synaesthesia has as it’s basis hyperconnectivity in the white matter of the brain, dyslexia as an opposite of synaesthesia or a deficiency of synaesthesia is or could be caused by hypoconnectivity in the white matter of the brain (I suspect there might be existing research evidence that supports this idea).

The implied idea that in at least one cluster or grouping of cases synaesthesia is associated with superiority in literacy or reading skill.

The idea that synaesthesia can happen in different regions of the brain, and because of this the experience of various types of synaesthesia can vary in detectable ways because of the influence on the synaesthesia of the varied ways that different areas of the brain operate. This can mean that one synaesthete can experience different types of synaesthesia that operate in very different ways, for example, some types of synaesthesia more rare or spontaneous or intrusive than other types. (I am not completely sure of the originality or the novelty of all of this idea.)

The idea that there is an association between synaesthesia and super-recognition that is not merely coincidental.

The idea that synaesthesia is a type of memory or learning. (Not sure if I’m the first to note this obvious fact).

The idea that synaesthesia concurrents are re-experienced memories, or re-activated “learnings” of concepts, not perceptions. (Not sure if I’m the first to note this obvious fact). In support of this idea I can assert that synaesthesia is like face recognition in that both are visual memory-based phenomena which are subject to the Verbal Overshadowing Effect or something very similar. My assertion that synaesthesia is subject to the verbal overshadowing effect is based on my own observations (outlined elsewhere in this post).

The idea that super-recognizers should or could be trained and employed as expert consultants in the practice of medical genetics.

The idea that medical geneticists and all types of medical specialists need to have a super-recognizer level of face memory or face recognition ability, so that they can intuitively and quickly recognize medical facies.

The idea that there is no clear point of distinction between medical facies or faces associated with genetic syndromes and normal faces.

The idea that super-recognizers could be used to facially identify blood relatives of a person or persons.

The idea that super-recognizers could be used to facially identify the specific ethnicity of a person.

(below ideas added January 28th 2014)

The idea that super-recognition or being a super-recognizer could develop as the result of an unusual level of fascination with the visual appearance of landscapes or scenes, rather than from a fascination with faces, and thus be a side-effect hyper-development of a part of the brain that serves two similar functions.

The idea that super-recognition or being a super-recognizer could, at least  in some cases, develop as the result of a general hyper-development of the visual sense to compensate for problems in the auditory sense during childhood such as temporary deafness, recurrent ear infections, glue ear or poor auditory processing.

(below idea added February 1st 2014)

The idea that lexical-gustatory synaesthesia is an exaggerated form of some kind of evolutionary adaptation in the brain that biologically primes the mind to attend to or react to speech on the subject of food (this idea was discussed at this blog in a post dated January 27th 2011, with more consideration in a later post).

(below ideas added February 6th 2014)

The idea that creativity might be immediately enhanced during and only during the duration of physical or visual-spatial activity because the activity activates areas of the brain associated with movement and in turn these areas activate other areas of the brain including those that give rise to conceptual thinking, and the increased activation makes novel associations between diverse thoughts and concepts more likely, and that this process is like synaesthesia or is a type of synaesthesia, and the types of physical activity that are the most effective inducers of this effect might be highly specific, highly specific in effects, highly varied between individuals and highly idiosyncratic, as is typical of synaesthesia inducers and concurrents. Driving a car can act as an inducer of this effect. (I have gone some way to exploring this idea in past posts.)

The idea that mental flexibility might be immediately enhanced by the above effect, which I will name “movement – thought-flexibility synaesthesia”.

The idea that thinking might be immediately enhanced by the above effect.

The idea that memory might be immediately enhanced by the above effect.

The idea that the above effect is similar to embodied cognition or is a type of embodied cognition.

(below ideas added February 14th  and  February 20th 2014)

The idea that synaesthesia is like the process of face recognition (and vice versa), because they both

– are subject to the verbal overshadowing effect or something similar

– are automatic

– are involuntary

– have a sensory inducer, in face recognition always visual, in synaesthesia I think most frequently visual

– have or can have a concurrent that could be described as a memory, a concept or a personality (I’m comparing face recognition with personification synaesthesias and the synaesthesias that I have described at this blog which have visual memories of scenes as concurrents)

– are or can be visual in both the inducer and concurrent

– typically involve the fusiform gyrus

– involve set pairings of inducers and concurrents (same person’s face seen before then recognized later)

– involve set parings of highly specific inducers and concurrents (I recognize that an employee at my local supermarket has a sister who has just started working there too, as their faces and bodies and hair are near-identical, but for the extra acne and the more receding chin of the new employee. They are very similar in appearance but my discrimination is highly specific, just as I can recognize that the green wall on the lower floor of a public library is close to but not quite the same colour as Tuesday.)

– both can have, but do not always have an actual face as an inducer (we can recognize the faces of celebrities in photos, caricatures and art, even seeing Marilyn Monroe’s face in a pattern of brown coffee cups stuck to the wall at the coffee shop at the art gallery.)

(below idea added February 17th 2014)

“My particular interest in personification is my own theory that personification synaesthesia (as experienced by myself) or something like it gives rise to superiority in face memory (or being a super-recognizer) by naturally making the faces of unknown people more memorable and interesting”

The above is a quote from an article that was published at the blog in October 2013.

(below ideas added February 19th 2014)

The idea that the synaesthesia brain is the result of the developmental influence or shaping from, or the adaptation to, the behavioural phenomenon of “flow” as described by Mihaly Csikszentmihalyi.

The idea that synaesthesia, intellectual giftedness or high IQ and autism or Asperger syndrome seem to coincide more often than chance because gifted and autistic kids are more likely to experience “flow” and this in turn can influence the developing brain in a way that gives rise to synaesthesia.

(below ideas added February 20th 2014)

The idea that the genuine conscious awareness of synaesthesia is a threshold phenomenon that operates in conflict or competition with conscious thinking, meaning that consciously thinking about synaesthesia can inferfere with the perception of concurrents, and synaesthesia must reach a particular level of intensity before it interrupts the experience of consciousness and becomes itself the subject of conscious awareness. I think that the idea that thinking about synaesthesia can interfere with the perception of synaesthesia might be related to the “verbal overshadowing” effect which has been described and debated about by researchers. In fairness I should point out that Mark C. Price speculated in the recently published (2013) Oxford Handbook of Synesthesia that synaesthesia could be subject to the verbal overshadowing effect. My own ideas were arrived upon independently from Price’s writing or work.  I base the ideas of synaesthesia being a threshold phenomenon which can also be interfered with by conscious thinking on a number of my own observations. In direct contradiction to what I had expected to find, my scores for accuracy for individual letters and numbers in The Synesthesia Battery (a scientifically-validated online test of synaesthesia) were lower for the numbers and letters that have colours that I find beautiful and which I have thought about to some degree, while my best accuracy was for the numbers and letters that have the dull and ugly colours. It seems the less I think about the concurrents the more accurately I can percieve them when they are evoked. I have also noticed that most of the types of synaesthesia that I experience I was not consciously aware of before I started to think about and examine the idea of synaesthesia. I never realised that I had complete stability in the colours I associate with months and days of the week till I tested myself. While I had a dim awareness of colour colouring my thoughts, I’d not realised that this worked like synaesthesia till I went looking for a pattern using simple testing. My fine motor movement-visual memories of scenes synaesthesia evokes concurrents that are so fleetingly and subtly experienced that they just feel like random thoughts, and indeed I now believe it is possible that the random thoughts of many or even all people are in fact synaesthesia of various types. I have also observed that there are some very unsubtle and intrusive types of syn that I experience, and they are typically rarely experienced and are associated with people, emotions, faces, singing voices or music that I find striking or novel as inducers. Because of the circumstances of these examples of synaesthesia, I think some kind of threshold is being breached when these types of synaesthesia are experienced by me.

The idea that one of the established defining criteria for synaesthesia, that it gives rise to perceptions or concurrents which are “consistent and generic (i.e., simple rather than pictorial)”, is wrong, and specific categories of memories of complex visual images such as faces and scenes, which are processed in the fusiform gyrus, can also be experienced as genuine synaesthesia concurrents. I base this assertion on the fact that I often involuntarily experience synesthesia concurrents of this type, and I have written about such experiences right from the first post in this blog which was published in 2010. I have also named types of synesthesia that have complex visual memories as concurrents: the strange phenomenon, fine motor task – visual place memory synaesthesia, involuntary method of loci memorization, etc. There are also many accounts or scientific observations of synaesthesia with complex visual concurrents in the scientific literature on synaesthesia.

The fusiform face area doesn’t just do faces

Tolga Çukur, Alexander G. Huth, Shinji Nishimoto and Jack L. Gallant

Functional Subdomains within Human FFA.

Journal of Neuroscience.

16 October 2013  33(42) p.16748-16766

doi: 10.1523/​JNEUROSCI.1259-13.2013

http://www.jneurosci.org/content/33/42/16748.abstract

As I’ve pointed out before at this blog, I believe that my high ability in face memory is accompanied by higher than average ability in recognizing or remembering the appearance of other types of things, such as body parts, words, cars, plant species, colours and probably other things as well. What this means in practice is that I’m a pretty good speller, reader and writer, I’m great at remembering and recognize faces (even if I can’t always put a name to the face and I don’t always acknowledge that I’ve recognized a person), and I’m also very good at identifiying plants and skilled at categorizing them as weeds or wild native plants or exotic garden varieties, because I can be confident that I know exactly which species the plant is, based on recognizing the shapes and colours of plants. I also believe that high ability in visual memory for many categories of things runs in my family, and I offer this as an explanation for why extraordinary test results for literacy skills and also literacy-related careers seem to run in one lineage in my family. I contrast this genetic literacy gift with an opposite condition which I have also seen running in some families, in which people struggle to express themselves in print, write in a style that mimicks speech and not the writing of others, consistently spell in a way that looks like random phonetic guessing, and who appear to have no ability to remember the way that correctly-spelled words look. If the fusiform face area (FFA) in the fusiform gyrus in the brain is the place that “does” face visual memory and plant visual memory and word visual memory, then having a good one is a definite advantage in many ways.