What protocol is your doctor following to get you to imagine your 100% recovery?
https://www.theguardian.com/education/2016/jun/04/aphantasia-no-visual-imagination-impact-learning
Never underestimate the power of visualisation. It may sound like a self-help mantra, but a growing body of evidence shows that mental imagery can accelerate learning and improve performance of all sorts of skills. For athletes and musicians,
“going through the motions,” or mentally rehearsing the movements in
the mind, is just as effective as physical training, and motor imagery
can also help stroke patients regain function of their paralysed limbs.
For most of us, visual imagery is essential for memory, daydreaming
and imagination. But some people apparently lack a mind’s eye
altogether, and find it impossible to conjure up such visual images –
and their inability to do so may affect their ability to learn and their
educational performance.
Firefox co-creator Blake Ross recently described how it feels to be blind in your mind,
and his surprise at the revelation that other people can visualise
things. “I can’t ‘see’ my father’s face or a bouncing blue ball, my
childhood bedroom or the run I went on ten minutes ago,” he wrote on
Facebook. “I thought ‘counting sheep’ was a metaphor. I’m 30 years old
and I never knew a human could do any of this. And it is blowing my
goddamned mind.”
We’ve known that some people cannot visualise things in their mind’s
eye since the 1880s, when the controversial psychologist Francis Galton –
one of the pioneers of eugenics – published a paper called Statistics of Mental Imagery.
Galton set out to “define the different degrees of vividness with which
different persons have the faculty of recalling familiar scenes under
the form of mental pictures”.
He asked his scientific colleagues to think of their breakfast table
and describe to him the vividness of their impressions, and found this
ability varied markedly – some individuals could draw up a mental image
just as brilliant as the scene itself, whereas others could only conjure
up an extremely dim image, or none at all.
Today, neurologists refer to this inability to form mental images as “congenital aphantasia”
– from the Greek words a, meaning “without”, and phantasia, meaning “a
capacity to form mental images” – and they believe it affects
approximately 2% of the population, or one in 50 people. Remarkably,
though, aphantasics do experience visual imagery in their dreams, so it seems that only voluntary visualisation is affected.
In the classroom, mental imagery seems to be especially important for
reading comprehension and learning word meanings, and, according to at
least to one theory, is a cornerstone for literacy.
Dual-coding theory,
put forward by Allan Paivio of the University of Western Ontario in
1971, distinguishes between verbal and non-verbal thought processes, and
places mental imagery as the primary form of non-verbal representation.
Thus, information is stored in two different ways – verbally and
visually – and although these two codes are independent of one another,
and can each be used alone, they can also interact to enhance learning
and recall.
Dual-coding theory has its limitations, the main one being the
assumption that thought processes are based on nothing but words and
images. Nevertheless, numerous studies published since the early 1970s
confirm that mental imagery does indeed play an important role in how schoolchildren acquire literacy skills.
The work shows, for example, that mental imagery helps eight-year-olds remember what they read, and that students who are asked to create mental images during word memory tasks learn two and a half times
as much as those who are told merely to repeat the words they need to
remember. Verbal recall and visual images do appear to be separate but
related, and while the ability to use imagery is not directly related to
measures of intelligence, vocabulary, and reading comprehension, the spontaneous use of imagery helps children to learn and understand prose.
More recently, other studies have shown that mental imagery can help
students grasp abstract concepts, and that encouraging students to use
imagery can improve their understanding of such concepts.
One study shows that using mental imagery helps primary school pupils learn and understand new scientific words,
and that their subjective reports of the vividness of their images is
closely related to the extent to which imagery enhances their learning.
Visualisation techniques are also helpful for the teaching and learning of mathematics and computer science, both of which involve an understanding of the patterns within numbers, and creating mental representations of the spatial relationships between them.
Aphantasia could possibly affect how students revise for exams, too. Using mind maps is one common strategy, which has been shown to effectively help them retain and recall information,
and merely visualising the appropriate page of their revision notes can
also help them to recall the information on it. It follows, then, that
an inability to create mental images would hinder students’ abilities to
use such strategies.
Although aphantasia was first recognised more than one hundred years
ago, there has been very little systematic research on the phenomenon,
and so we still know very little about it.
For example, are people with aphantasia able to imagine sounds or
touch sensations, or does the condition affect imagery in senses other
than vision? Galton alluded to this in his original 1880 paper,
concluding that “the missing faculty seems to be replaced so serviceably
by other modes of conception... Men who declare themselves entirely
deficient in the power of seeing mental pictures can nevertheless give
life-like descriptions of what they have seen.”
Regardless,
research into visual imagery would seem to suggest that students with
aphantasia are likely to experience difficulties with learning, but as
yet there is no research confirming that this is the case.
“We know that children with aphantasia tend not to enjoy descriptive
texts, and this may well influence their reading comprehension,” says
neurologist Adam Zeman
of the University of Exeter who, together with his colleagues, gave the
condition its name last year. “But there isn’t any evidence directly
linking it to learning disabilities yet.”
Zeman adds that people with aphantasia may be able to form visual
images, but just don’t have conscious access to them. “The story really
is still at the early stages, so the implications for education haven’t
been explored,” he says.
Researchers use questionnaires to determine the vividness of mental images, and people’s scores on these tests are closely correlated to measures of activity in visual brain regions.
Thus, it may be possible to objectively measure individual
differences or variations in the vividness of people’s mental images,
and to identify students who have aphantasia. If it becomes clear that
the condition does in fact impinge on children’s ability to learn, it
may then be possible to devise alternative learning strategies for them.
Use the labels in the right column to find what you want. Or you can go thru them one by one, there are only 29,294 posts. Searching is done in the search box in upper left corner. I blog on anything to do with stroke. DO NOT DO ANYTHING SUGGESTED HERE AS I AM NOT MEDICALLY TRAINED, YOUR DOCTOR IS, LISTEN TO THEM. BUT I BET THEY DON'T KNOW HOW TO GET YOU 100% RECOVERED. I DON'T EITHER BUT HAVE PLENTY OF QUESTIONS FOR YOUR DOCTOR TO ANSWER.
Changing stroke rehab and research worldwide now.Time is Brain! trillions and trillions of neurons that DIE each day because there are NO effective hyperacute therapies besides tPA(only 12% effective). I have 523 posts on hyperacute therapy, enough for researchers to spend decades proving them out. These are my personal ideas and blog on stroke rehabilitation and stroke research. Do not attempt any of these without checking with your medical provider. Unless you join me in agitating, when you need these therapies they won't be there.
What this blog is for:
My blog is not to help survivors recover, it is to have the 10 million yearly stroke survivors light fires underneath their doctors, stroke hospitals and stroke researchers to get stroke solved. 100% recovery. The stroke medical world is completely failing at that goal, they don't even have it as a goal. Shortly after getting out of the hospital and getting NO information on the process or protocols of stroke rehabilitation and recovery I started searching on the internet and found that no other survivor received useful information. This is an attempt to cover all stroke rehabilitation information that should be readily available to survivors so they can talk with informed knowledge to their medical staff. It lays out what needs to be done to get stroke survivors closer to 100% recovery. It's quite disgusting that this information is not available from every stroke association and doctors group.
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