Showing posts with label Performance. Show all posts
Showing posts with label Performance. Show all posts

Friday, July 31, 2015

The Truth about Mindsets

Ever been told you need to change your outlook, or adopt a more ‘resilient mind-set’?  Are mindsets even real, or are they just psychobabble?
According to brain plasticity experts, mindsets are real and the result of the interaction between our environment, nervous system and DNA. A mind-set is actually a group of neurological mind-maps that we create to perform a task, or respond to input coming from the senses.
Resilience has become a buzzword for a group of behaviours that enable an individual to withstand, or recover quickly from, adversity or adapt to changed conditions. Much attention has been paid by researchers to the study of individuals who demonstrate a resilient mind-set in the face of trauma, in the hope that a model of resilience can be developed and taught.
In my research into the interaction between behaviour, our DNA, and the environment, I was drawn to the work of neuro-plasticians (scientists who study the brain’s ability to change itself) like Edward Taub and Michael Merzenich,[i]⁠1 whose work is complementary to that of quantum biologists Pjotr Gariaev and Vladimir Popponin.
While quantum biologists, Gariaev and Popponin, investigate how environmental mechanisms switch DNA on or off, Taub and Merzenich have dedicated their lives to understanding how the nervous system responds to signals from the environment, learns new skills, and develops habits. Their research reveals a dynamic neurological process where the mind creates maps for how it responds to signals coming from the senses, and then recreates them on demand.

What do we use Mindmaps for?

There are maps for everything we do, hear, see, feel, taste and smell. These maps contain the precise sequence and location of neurones (cells) in the brain as they are fired. The more we are exposed to something, and respond in a similar way, the more defined and refined these maps become, and the more of our brain the map owns. We have maps for walking, for holding a ball or gripping a cup, and we have maps for our emotions, for what triggers feelings of love, sadness, fear, anger or arousal.
Being aware of how our behaviour is laid down in our nervous system by repetition and reward allows us to decide if a particular mind-set is productive.
Mindsets are literally groups of associated neurological mind-maps that work together, or fire together. There is a saying in brain plasticity that says: ‘neurones that fire together, wire together’ and ‘neurones that fire apart, wire apart.’[ii]
This grouping of mind-maps doesn’t just apply to physical responses, but to the secretion of brain chemicals that underpin emotion. Our brain maps our experience by creating 3D, holographic, topographical maps and then storing these throughout our cells, from the brain stem and spinal cord, down into the peripheral nerves themselves.
When a situation resembles an aspect of a past experience, this triggers the projection of the 3D mind-map almost instantaneously, and causes neurones to fire in a precise sequence, making our response feel automatic or unconscious. Every time we relive an experience, we add detail to, or amend information in the map, literally re-writing our past.⁠3  The brain then links experiences to deepen and add detail to mind-maps, making them more refined and complex.

Overcoming Damaging Mindmaps

Sometimes, however, circumstances in the environment change so swiftly that our mind-maps are no longer appropriate. 
It therefore follows that someone who is good at playing piano will have a bigger map for the movement of their fingers and hands than a soccer player. While the soccer player would have more of their brain devoted to the nuances of moving the body, legs and feet than would the pianist.
Mind maps draw on abilities we have inherited from our parents that are the best fit for a particular experience or stimulus coming from our environment. This explains why we can carry a gene for depression and anxiety, but if we do not experience sustained bullying or trauma as a child, this gene may not be called on. Meanwhile if we are taught functional ways to handle aggression and conflict, these skills will instead become the basis of a mind map that gives us an evolutionary advantage for survival and thus reproduction, and may then be naturally selected for over the generations in preference to humans with the older code.[iii]
If this mind map is reinforced over and over again by practice and experience, there is a good chance it will be laid down in the DNA as an alternative code, which can be passed onto future generations. A parent who copes well with conflict and aggression is also more likely to teach these skills to their offspring, further reinforcing the resilient behaviour. Over multiple generations, this reinforcing of a healthy response to aggression and conflict may lead to a dominant trait in descendants that predispose them to resilience.
This brilliant, new research over-turns both the ‘dominance of the gene’ and ‘brain localisation’ theories, proving the dynamic interplay between genetic material and our experience of the world through our senses.

Developing Resilience

Resilient individuals can be said to have highly functional maps that provide a strong pattern for the nervous system to rely upon, as well as the ability to be able to break these maps down when they are no longer useful and replace them with better response maps.
Positively charged emotions like gratitude, love, acceptance and joy produce dopamine and endorphins that help lay down new mind-maps, as well as oxytocin that helps dissolve the old mind-maps being replaced. This explains why it is only at the point of acceptance in the cycle of grieving that individuals are able to finally let go of what was lost and move on. Acceptance promotes the production of the very brain chemical that melts away old mind-maps and allows new mind-maps to supersede them.[iv]
Experiencing a reward for new behaviour also triggers more dopamine, helping to reinforce connections between neurones, strengthening a new map. Fear, on the other hand, shuts down the nervous system and DNA expression, leaving us with only the most primitive maps to fall back on.
This explains why fear and anxiety can render us speechless and unable to respond. Soldiers are trained to overcome this through the repetition of skills under extreme pressure, and through receiving rewards for the desired, resilient behaviour.⁠6 Even soldiers, when exposed repeatedly to stress and trauma, may experience post-traumatic stress symptoms and be overwhelmed by fear, rage or depression.
The amazing thing about mind-maps is that they are three dimensional, and stored holographically within the nervous system and DNA. But even more amazingly, they are plastic and highly susceptible to change. This new evidence is transforming the way medicine rehabilitates stroke victims and brain injury patients, leading to a virtual rewiring of damaged brains around dead cells. The key to this new model of rehabilitation is to re-learn skills for the damaged limb, motor skill or brain function as if for the first time, step-by-step, like a baby, and by providing a reward for each incremental improvement.[v]
In this way, some patients with catastrophic damage have regained almost full function of motor-skills, despite a prognosis they would never recover.[vi]
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Elisabetta is the author of the best-selling non-fiction book - The Energy Code.
She is also the author of The Infidel, Veritas and Nemesis and was the librettist for  the musical  - D'Arc, The Legend of Saint Joan.
 
Elisabetta works as a consultant to government organisations, entrepreneurs and NGOs on innovation, change management and talent retention.
 
Learn more about Elisabetta at:
 

[i] M.  M. Merzenich, 2001, Cortical plasticity contributing to
childhood devSiegler, eds. Mechanisms of Cognitive
Development: Behavioural and Neural Perspectives. Mahwah,
N.J: Lawrence Erlbaum Associates, p68.
[ii] Norman Doidge, MD, The Brain that Changes itself, Scribe,
Melbourne 2010
[iii] Ibid.
[iv] 4 Sugden, Karen, Kings College Bullying Study, Kings College
2010, London
[v] Ramachandran, V.S, The Tell-Tale Brain, 2010
[vi] Doidge Opcit, p119

Sunday, September 7, 2014

The Tyranny of Familiar Truths



When the 'Jack The Ripper DNA' story hit the headlines today, I was interested and intrigued by the variety of responses; especially how people clung to their conspiracy theories despite evidence to the contrary. At the same time I was having an interesting conversation via The Energy Code Facebook Fan Page about the nature of ideology and dogma.

It got me thinking about how many of us have 'sacred cow' beliefs that we will defend bitterly, sometimes violently, and how the tyranny of truth has held back advances in science, the arts and philosophy throughout the ages, mainly via religion's repression of thought and freedom of expression.

Before anyone gets offended here, I would like to add that academic and scientific edifices are just as capable of repressing ideas that challenge the accepted wisdom of the age, although historically, science has been more ready to adapt than religion; with change measured in decades for science versus centuries for religion.

I believe that our attraction to holding on to cherished beliefs has a lot to do with the way our brains create mind-maps for familiar activities. Mindmaps are life-hacks, they allow us to reduce the amount of effort required to think and do. Once we have performed a task, or acquired knowledge, or taken on a belief, it is easier to rely on the existing mindmap than to edit or replace it. Think of mindmaps as being paths of least resistance, a lot like a pathway through deep snow. Once we have trod a path through the snow, it is easier to retrace our steps, making that path more obvious, and requiring less effort. The more we walk along the same path, the easier and easier it gets.

Now we may discover there is a shorter route to get to where we want to go, but it is through virgin snow, so it is going to require a lot more effort to go that way at first. Here's the caveat, however, once we have walked the new path a couple of times, it too will become ingrained and be the path of least resistance, as well as more efficient.

So next time someone presents you with evidence that challenges a cherished belief or way of doing things, don't just resist it out of habit. Sit back, take a moment and assess if this new information is useful, and then allow yourself to update your mindmaps to accommodate it. The first few times might feel like trudging through foot-deep snow, but believe me, pretty soon you will be be glad you made the effort to escape the tyranny of a familiar truth.


Elisabetta is the author of The Energy Code, The Infidel, Veritas, and D'Arc the Legend of Saint Joan.

Visit her website 

Preview or Purchase The Energy Code from Amazon 

Tuesday, April 19, 2011

Impulse Control, Mindmaps and Behaviour Change

Recently, I've spent some time looking at habit change and the way that neurological mindmaps are formed. Mindmaps bring together all the ingredients of a habit, and do so in such a seamless, almost instantaneous way that it can make our habits appear automatic.

In this blog, I would like to share what I've learned about how we can support ourselves and the people we care about to shift unwanted, or unhealthy behaviours.

Mindmaps create physiological responses in the body that reinforce behaviour, creating a feedback loop that interacts with our environment and our DNA to lock in behaviours, even the unwanted ones.

This creates the illusion that our habits are entrenched, beyond our control and inflexible, when really any habit is like a track in the snow we have walked along many times. We could walk outside the track, but it feels easier to walk within the track, it's familiar and well trodden, whereas walking outside the track feels more difficult and unfamiliar. The more we walk along the track, the more likely we are to walk down it again. However, we can walk outside of the track, and the more we chose another path, the more familiar it becomes and the easier it feels.

The illusion that our habits are fixed leads many of us to think we cannot change, that our habits are beyond our control and that we are slaves to them. Regardless of whether a habit is a repetitive ritual, like hand-washing, or checking the locks in your house over and over, or the habit is co-dependent like tobacco, drug or alcohol addiction, over-eating, gambling, over-exercising, gossip mongering, or sex-addiction, all habits have mindmaps, and most have several that link together.

We are all the product of our mindmap driven habits. When I consult to government and industry, and conduct 360 degree profiling, over and over again I see the same patterns. Those who invest their time and energy in health sustaining habits and optimism look 10 to 20 years younger and are 10 to 20 years younger biologically than people of the same age who invest their time and energy in health-depriving habits and negativity. We are the products of what we think, say and do. It shows up in each and every one of our cells, activating the latent  potential in our DNA.

For example, alcohol and drug use have been shown in recent studies to change the way the brain assesses risk and handles impulses. The more often we drink, or the more we drink, the more we shut down our ability to assess risk or manage our impulses, and the more we fire up the area of our brain that seeks short term gratification (Researchers Link Alcohol-Dependence Impulsivity to Brain Anomalies ScienceDaily Apr. 15, 2011 / Impulse Control Area In Brain Affected In Teens With Genetic Vulnerability For Alcoholism ScienceDaily Nov. 7, 2008)

At the end of this article I've included a report from Science Daily of a study that identified the brain area responsible for impulsive behaviour, and how impulse control is implicated in many behavioural anomalies including ADHD, Obsessive Compulsive Disorder, Alcoholism, Substance Abuse, Binge Eating, Gambling to name just a few. It's an interesting study and shows just how far we have come in understanding the mechanisms behind behaviour.

Impulsive behaviour is now understood to be a brain function issue; too many neurons in a particular area of the brain fire, while the problem solving area of the brain is shut down. In some individuals this triggers the activation of genes for anxiety, alcoholism, depression or violence. However, when this area of the brain is not stimulated these genes are not expressed. This is how someone with an impulse driven behaviour can appear to be two different people, depending on whether they are engaging in the impulsive behaviour or not.

The mindmap for impulsivity is now understood, and can be mapped. What is exciting is that because it is a mindmap, and not a personality trait, it can be changed. The brain's own inherent flexibility can be called upon to learn, repeat and perfect an alternative behaviour to replace the negative, impulsive behaviour, which in turn makes the associated, destructive genes dormant again.

So what does this mean for you and I? Well it means we are not the slaves of our behaviour. And even our most negative habits are not out of our control. It means that if we choose to create a different track in the snow to walk along, and take that path as often as we can, eventually it will have a stronger, richer, more dominant mindmap than the old path. This means that newer, more desirable habits do have a chance.

I think this is why it usually takes people several attempts to quit smoking, stop drinking or abusing substances. Each time they try a new track, they are creating a new set of mindmaps. When stress or environmental factors in their life draws them back to the old path, friends and family lament and fear that all the time spent creating good habits has been lost. But that's not the case. The newer path is still there, and if it felt good to walk that path even for a little while, the memory of that feeling will at some time in the future tempt the individual to try it again.

Each time the path of the new habit is attempted, it gets stronger. What we know is that if reward is associated with a behaviour, it is reinforced, so positive reinforcement will do more to draw a person back to a good habit than punishment will. Eventually the new behaviour will have a strong enough pull, and have enough positive associations to become dominant, so that even if an individual is drawn back to an old behaviour for a time, they are less likely to be stuck in the behaviour, because they know they have a choice, and they know what that feels like - they have a mindmap for an alternative life.

That being said, the longer an individual can stick to a new behaviour, the better. Returning to old, destructive behaviours can have disastrous effects. Even a short period of impulsivity due to substance abuse or gambling can shatter someone's life.

At the very least impulsivity affects an individual's performance, at home and at work. Addressing our destructive habits gives us the best chance to live consciously and end up with the things and events in our life that we desire. Turning up each day with a full, positively charged bucket of energy is a decision, not a fluke. It requires us to make conscious choices about what we consume, do and think, the mindmaps we fire up and those we shut down.

It requires us to choose which path we will walk down today...




Brain's Impulse Control Center Located


ScienceDaily (Oct. 14, 2010) — Impulsive behaviour can be improved with training and the improvement is marked by specific brain changes, according to a new Queen's University study.

A research team led by neuroscience PhD student Scott Hayton has pinpointed the area of the brain that controls impulsive behaviour and the mechanisms that affect how impulsive behaviour is learned. The findings could have a significant impact on the diagnosis and treatment of several disorders and addictions, including ADHD and alcoholism.

"In the classroom, kids often blurt out answers before they raise their hand. With time, they learn to hold their tongue and put up their hand until the teacher calls them. We wanted to know how this type of learning occurs in the brain," says Mr. Hayton, a PhD student at the Centre for Neuroscience Studies at Queen's. "Our research basically told us where the memory for this type of inhibition is in the brain, and how it is encoded."

The team trained rats to control impulsive responses until a signal was presented. Electrical signals between cells in the brain's frontal lobe grew stronger as they learned to control their impulses. This showed that impulsivity is represented, in a specific brain region, by a change in communication between neurons.

Impulsivity is often thought of as a personality trait, something that makes one person different from another.

Children who have difficulty learning to control a response often have behavioural problems which continue into adulthood, says Professor Cella Olmstead, the principal investigator on the study. She notes that impulsivity is a primary feature of many disorders including addiction, ADHD, obsessive compulsive disorder and gambling. Identifying the brain region and mechanism that controls impulsivity is a critical step in the diagnosis and treatment of these conditions.

"In conditions where learning does not occur properly, it is possible that it is this mechanism that has been impaired," adds co-investigator neuroscience Professor Eric Dumont.

The findings were recently published in The Journal of Neuroscience.


Journal Reference:
    1.    S. J. Hayton, M. Lovett-Barron, E. C. Dumont, M. C. Olmstead. Target-Specific Encoding of Response Inhibition: Increased Contribution of AMPA to NMDA Receptors at Excitatory Synapses in the Prefrontal Cortex. Journal of Neuroscience, 2010; 30 (34): 11493 DOI: 10.1523/JNEUROSCI.1550-10.2010



Sunday, January 16, 2011

Smart Cells and the end of the Tyranny of Genetics

I've just been reading and enjoying 'The Biology of Belief' by Bruce H. Lipton PhD. In this seminal work, Lipton introduces the concept of Epigenetics or the science of the effect the environment has on switching genes on or off.

Lipton is a Cellular Biologist and former Professor of the University of Wisconsin School of Medicine. After some 20 years as a pre-eminent biologist, pioneering the cloning of cells, Lipton realized that the cell tuned itself to its environment, and it was the environment, not our DNA that determined our evolution. He realized that the environment provides the cues that a cell uses to determine which codes to switch on or off. Even more startling Lipton provides proof that cells actually assemble new DNA in response to environmental conditions.

Perhaps, most startling of all, Lipton shows that cells borrow DNA from other species, and that the human body is actually a community of differentiated cells, working and cooperating with foreign species - like the bugs in our gut - to do more than survive.

All of this goes hand in hand with what quantum biologists are discovering about the way DNA codes are affected by emotions, behavior and environmental conditions.

What Lipton adds to the debate is that every cell in our body is listening to our thoughts, feeling our emotions and responding to the thoughts and emotions of others. Like ripples in a pond, the DNA within our cells organises itself according to the needs of the cell and then broadcasts this response into the environment.

Now the ramifications of this growing body of science is astounding. There is a revolution occurring in the world of the evolutionary sciences. Darwin is no longer pre-eminent with his 19th century doctrine of survival of the fittest, and the determinism of the genes. Darwin's contemporary, and the first to publish a theory of evolution - Lamarc -  was long pilloried for his belief that cells are more than factories at the whim of flight or fight responses. His thesis that an organism evolves through co-operation, is at long last being considered by modern science. In the battle for hearts and minds in the scientific community where nature seemed to triumph over nurture, the tide has turned. Nurture now seems to be the determining factor in what gets expressed by genes.

What all evolutionary scientists, cell biologists and geneticists agree upon, however, and what is often not conveyed to the general public, is that our genes are how we store and transmit the memory of our experiences from one generation to another. Our DNA is a library, one where new books are being written, old books re-read, and others edited. Our genes are the memory of our cells.

So what does this mean for you and I?

It means that we are not at the mercy of our genetics. That unless we suffer from one of a small handful of genetic conditions like aplastic anemia, our genetic make-up is far more mutable than previously publicised. The environment we live in, the experiences we have and the choices we make about our environment, behaviour and thoughts determine what gets switched on or off, or indeed constructed in our DNA.

As someone who was born with a potentially fatal genetic condition, I have experienced the power of choice in my life. The choices I have made around healthy food, to exercise regularly, avoid alcohol and tobacco, pharmaceuticals and recreational drugs has helped me to beat the odds. However, the decision to manage my thoughts and emotions has been even more profound.

By focusing on positive outcomes and commiting my energy, intent and actions to the steps that will make these outcomes a reality, I know I have changed my destiny. I did not perish at three years of age, from bowel disease, althought I was diagnosed with it. I did not die at 12 as a result of the four strokes I suffered. I was not in a wheel chair at fourteen or dead before adulthood. I am now 46 years old, the mother of four healthy children with a full and productive life. I have outlived my mother, who died at 44 of breast cancer.

In short I have made the best of a bad lot. What the future brings is anybody's guess. What I do know is that I have choices, and I will continue to exercise my ability to choose as long as I draw breath. I will continue to thank the collection of 50 trillion or so smart cells that make up my being, and send them supportive, healthy messages through the physical, emotional and mental choices I make.

For me, the quest to understand our biology and how our DNA, environment, behavior and emotions interact is extremely personal. However, you don't need a genetic condition for this to matter. It is in the interest of every person on this planet to ask themselves a simple question each day.

"What have I cast my vote for today. Through the choices I have made did I vote for health and a productive, useful life, or did I vote for something else?"

This is what I have asked myself every day since I was twelve years old and a doctor gave me a death sentence. Through my choices, I believe I proved him wrong. Thanks to scientists like Lipton, I can begin to understand why.

7 Essential Tips for Anxiety - Part 5 Mindfulness

  Anxiety is an extremely common problem. It is estimated that Approximately 1 in 4 people in the UK will experience a mental health probl...