As science looks more and more at the human body with greater technology, we have begun to come full circle in understanding what the ancients knew about the heart, the brain, and divine consciousness. The heart produces hormones that diffuse throughout the whole body helping to regulate biological functions.
All patterns of behavior that emerge from experiences where conscious processing is absent or suspended remain below the level of conscious awareness, and tends to be repeated.
Mind Power"The Potential Of The Human Mind Is Subject To, And Limited Only By, Our Individual Beliefs or Un-belief As To Whether We Can Accomplish A Thing Or Not.
Brain has some amazing powers and we are generally unaware of them; And yet there are some simple exercises to boost the power of our amazing brain and benefit from our powerful subconscious mind.
3- Boost your memory by trying to recall different things, such as phone numbers and names.
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Begin to Live theLife You Choose™.Subscribe to our newsletter, One, andreceive the firstchapter of The Powerof Oneness FREE! We live in an age where technology can connect us with almost anyone anywhere, all in a matter of seconds, through texting, email, Facebook, Twitter, and Skype. Paradoxically, in the midst of all this instantaneous communication, enormous numbers of people are feeling desperately lonely. Beyond the obvious positive effects on our body, human touch also creates the ability to restore our minds and bodies with our spiritual connection. The next time you feel lonely or in need of physical and emotional reassurance, find a person or an animal you care about and give them a hug! This entry was posted in 2014, Joy, Loneliness, Love, Relationships, Uncategorized and tagged anxiety, depression, healthy lifestyle, hold another in your arms, hugging, human touch, kindness, loneliness, love by Sandra Brossman.
Even by the standards of the TED conference, Henry Markram’s 2009 TEDGlobal talk was a mind-bender.
The way Markram sees it, technology has finally caught up with the dream of AI: Computers are finally growing sophisticated enough to tackle the massive data problem that is the human brain.
Markram has earned that support on the strength of his work at the Swiss Federal Institute of Technology in Lausanne, where he and a group of 15 postdocs have been taking a first stab at realizing his grand vision—simulating the behavior of a million-neuron portion of the rat neocortex.
Yet when scientists study these systems more closely, such reductionism looks nearly as rudimentary as the Egyptian notions about skull marrow. To add to the brain-mapping mix, President Obama in April announced the launch of an initiative called Brain (commonly referred to as the Brain Activity Map), which he hopes Congress will make possible with a $3 billion NIH budget. Even scaled up to human dimensions, such a map would chart only a web of activity, leaving out much of what is known of brain function at a molecular and functional level. To find out, he took up psychiatry at the University of Cape Town but swiftly grew impatient with the field. So he quit medicine and joined the only Cape Town lab doing experimental neuroscience, directed by a young researcher named Rodney Douglas. Markram published his groundbreaking results in more than a half-dozen scientific papers, enough to earn him a full professorship by the age of 40. His vision matched the ambition of one man who could fund it: neuroscientist Patrick Aebischer, the newly appointed president of the Swiss Federal Institute of Technology, tasked with making the campus a leader in computer science and biomedicine. Markram’s Blue Gene supercomputer is a 10-minute walk from the Blue Brain wet lab, in a whitewashed room behind a sliding glass door.
Around the same time, harsh criticism also came from Rodney Douglas, who moved to Lausanne’s archrival, ETH Zurich, in 1995.
Markram thinks that the greatest potential achievement of his sim would be to determine the causes of the approximately 600 known brain disorders. A researcher could see the world as a schizophrenic while watching what is going on in the patient’s mind.
In hype-driven contexts (such as his 2009 TED talk), Markram has hinted at the possibility that a sim embodied in a robot might become conscious. One of the few people with experience simulating the entire human brain (albeit in much less detail than Markram), University of Toronto psychologist Randy McIntosh is also tentatively optimistic about Markram’s project.
This entry was posted in Healing, Internet Radio Show, Kindness, Quotes and tagged healing power touch, power human touch, power touch, power touch psychology, power touch quotes.
Narcissistic Personality DisorderFive Gaslighting Techniques Used by Narcissists Are People With NPD Mentally Ill Moving Past a Relationship with the Narcissistic Personality Disordered Healing From Narcissistic Abuse Requires Changing Your Inner Dialogue Roles of Children in Narcissistic Families Tips for Finding Help with Your NPD Abuse Recovery Empathy Connects Us To The Heart Of Others Randi Addresses Listeners Concerns About Narcissistic Abuse Have You Ever Visited a Mental Health Professional? Enter your email address to subscribe to this blog and receive notifications of new posts by email.
DonateIf you would be so kind as to help keep this site going it would be greatly appreciated. Wilma Rudolph Quote“Never underestimate the power of dreams and the influence of the human spirit.
The heart has direct neural connection to the emotional centers of the brain and has its own logic, the wisdom of the heart.
Children do not display the neural electrical activity associated with conscious awareness until after six years of age. As an adult any experience that rises above a certain stress threshold induces the hypnagogic state, resulting in a suspension of conscious processing. It suspends our conscious processing and keeps our subconscious mind open to suggestive programming. Peaceful sleep, healthy diet and a relax environment are so critical to have a healthy brain. Some researches showed that people who use both hands in their regular activities, have 10% more neural connections between the two sides of their brain.

Use of this website and the information contained herein does not create a doctor-patient relationship. Through social media, we now have the capacity to almost instantly message out updates of our lives, pictures of family and friends, opinions about people, political viewpoints, birth notices, death notices, jokes, and even pictures of what we have had for dessert. When we physically touch someone in a kind, loving way we are doing something which technology cannot do – we are communicating our feelings of love and acceptance at a level that is far deeper than words.
There’s no guarantee that Markram will be able to build out the rest of the rat brain, let alone the vastly more complex human brain. We know that the brain is electric, an intricately connected network, and that electrical signals are modulated by chemicals. There are dozens of different neurotransmitters (dopamine and serotonin, to name two) plus as many neuroreceptors to receive them. The Allen Brain Atlas is mapping the correlation between specific genes and specific structures and regions in both human and mouse brains. Seated behind a clean desk in an office devoid of anything more personal than his white MacBook, he spends most of his days meeting with administrators, technicians, and collaborators.
It has been his only serious interest since the age of 13, when his mother sent him from the Kalahari game farm where he’d spent his childhood to a boarding school outside Durban. In his new lab, Markram took up a technique that he’d learned from electrophysiologist Bert Sakmann at Max Planck, for which Sakmann and physicist Erwin Neher won the 1991 Nobel Prize in Medicine. What Markram discovered was that the pattern of synaptic connections in a neural network is determined not only by whether neurons fire together but also by when they fire relative to one another.
This is the second multimillion-dollar supercomputer Switzerland has given him in 10 years, with eight times more memory than his first. The project’s first Blue Gene supercomputer was robust enough to simulate a single neocortical column in a rat (its whole brain has the equivalent of 100,000 columns). The eminent neuroscientist Moshe Abeles of Bar-Ilan University in Israel points out that the brain “differs from one individual to another, and in some respect it also differs in each of us from day to day. In the Israeli newspaper Haaretz last year, he proclaimed, “the Human Brain Project is irresponsible in terms of public interest. Neuroscientists could not only see the flow of neurotransmitters and ions but could also experience the delusions. Ever the optimist, he believes that Moore’s law (and the European Union) will deliver him that raw power in about a decade. The compassionate touch of a hand or a reassuring hug can take away our fears, soothe our anxieties, and fill the emptiness of being lonely. The heart receives information directly from its environment and distributes it through the whole psychosomatic network via these pathways. They spend the first six years of their lives in the state referred to as the hypnagogic trance. In this state whatever we experience will be stored in our subconscious memory but not consciously processed.
You can start to practice some easy activities, such as brushing your teeth or combing your hair with your non-dominant hand and gradually do more complex tasks, and become ambidexter!
Always consult with your own doctor in connection with any questions or issues you may have regarding your own health or the health of others. Perhaps we have become so preoccupied with living in our heads, that we are becoming disconnected from our body-mind connection.
Touch is a means of communication that is so critical that research shows that infants deprived of direct human contact grow slowly and even die. Gently rubbing someone’s back, giving a hug, holding someone’s hand, and even a pat on the back can go a long way in nourishing that person’s soul, as well as your own; for when you touch another person in a kind way, you are blessed in return. He dedicated himself to wiping out all mental disorders and creating a self-aware artificial intelligence.
If only neuroscience would follow his lead, he insists, his Human Brain Project could simulate the functions of all 86 billion neurons in the human brain, and the 100 trillion connections that link them. And the team has not only published some of that data in peer-reviewed journals but also integrated it into a cohesive model so it can be simulated on an IBM Blue Gene supercomputer. And if he can, nobody knows whether even the most faithful model will behave like a real brain—that if you build it, it will think. For decades, neuroscientists and computer scientists have debated whether a computer brain could ever be endowed with the intelligence of a human. In sufficient quantity, certain combinations of chemicals (called neurotransmitters) cause a neuron to fire an electrical signal down a long pathway called an axon. There are more than 350 types of ion channel, the synaptic plumbing that determines whether a neuron will fire.
The Human Connectome Project is using noninvasive imaging techniques that show where wires are bundled and how those bundles are connected in human brains. The office is down the street from his wet lab and halfway across campus from the Blue Gene computer facility. His first year there, he stumbled across some research on schizophrenia and other mental disorders and directed his youthful energy into studying the mind. If an input spike of electrical current occurs before an output spike, the input connection is strengthened.
Since 2005, he has been building a small-scale model and simulation of the rat neocortex (his initial Blue Brain project). Markram understood that it would take trillions of dollars, not billions, to experimentally model every part of the human brain. While that has gained him a following among sci-fi enthusiasts, he separates such speculations from the hard work of doing real science.

However, he’ll also need far more data than even his industrial-strength Blue Brain lab can collect. Or could the truth about its power be related to the essence of your entire being, and have a field of energy so great that it can transform not just your own being into that of light, love and happiness, but even those around you.
Fifty percent of heart cells are neural and form their own neural network, the intelligence of the heart. This is the same state that hypnotists induce to implant suggestions directly into the subconscious mind. In this amazing poster you can find some very effective tips to boost the power of your brain. At its most fine-grained, at the level of molecular biology, neuroscience attempts to describe and predict the effect of neurotransmitters one ion channel at a time. Markram speaks of brain slices and microchips in detail, but he is not just a scientist in the conventional sense, stooped over a lab bench like Jonas Salk. Over a one-year period Markram performed nearly a thousand experiments recording the effect of a neurotransmitter on neurons in the brain stem.
With his exceptionally steady hands, Markram was the first researcher to patch two connected neurons simultaneously, a feat that put him in a position to see how they interacted. There were approximately 60,000 neuroscience papers published every year, only increasing the field’s fragmentation.
He is now the coordinator of the lavishly funded Human Brain Project, spearheading a global initiative to coordinate data-gathering across labs worldwide. The loud drone of air-conditioning serves as a constant reminder that computing has a lot to learn about efficiency from the 20-watt human brain. He insists on exhaustive biological detail yet strives to make the most general models possible.
Shortly after arriving at Lausanne, Markram developed workflows that extracted experimental results from journals, strip-mining thousands of neuroscience papers only to find that the data was too inconsistent to use in a model. Markram was proposing a project that has bedeviled AI researchers for decades, that most had presumed was impossible.
He has impressed leading figures in biology, neuroscience, and computing, who believe his initiative is important even if they consider some of his ultimate goals unrealistic. The electrical spike causes neurotransmitters to be released at the synapse, where they attach to receptors in the neighboring neuron, altering its voltage by opening or closing ion channels. At the opposite end of the scale is functional magnetic resonance imaging, the favorite tool of behavioral neuroscience.
What neuroscience needed, he decided, was an enormous collaboration, with research protocols coordinated so that all the data would fire together—and naturally he thought he was the one to make it happen.
On top of all that, Markram is responsible for the simulation aspects of the HBP, building a virtual human brain from all the incoming data. Researchers have done the same with lab animals for decades, observing their behavior after giving them lesions. A neuroscientist could then play back those perceptions as distorted by a damaged brain simulation.
His role will be that of prophet, the sort of futurist who presents worthy goals too speculative for most scientists to countenance and then backs them up with a master plan that makes the nearly impossible appear perfectly plausible. Scans can roughly track which parts of the brain are active while watching a ball game or having an orgasm, albeit only by monitoring blood flow through the gray matter: the brain again viewed as a radiator. And without modeling and simulation, all that knowledge about the brain would amount to an incoherent storehouse of trivia. The power of Markram’s approach is that the lesioning could be carried out endlessly in a supercomputer model and studied at any scale, from molecules to the brain as a whole.
In an immersive 3-D environment, a researcher could see the world as a schizophrenic while watching what is going on in the schizophrenic’s mind. But he has since been building standardized protocols for many of the labs participating in the Human Brain Project. You could strap on a pair of virtual reality glasses and experience a brain other than your own.
The synapses are roughly equivalent to the logic gates in a circuit, and axons are the wires. But with a multilevel model of the rat brain as a template, scientists might find a rule governing how neurons connect and chart only a few, on the basis of which they could fill in the remainder. His timing may be just right, with the data glut expected from the Allen Brain Atlas, the Human Connectome Project, and the Brain Activity Map. Markram will grant them the opportunity and encouragement to band together and pursue the big questions. According to Brown University neuroscientist John Donoghue, one of the key figures in the Obama-sanctioned initiative, “the two projects are perfect complements. For example, only about 20 of the 2,970 synaptic pathways in one small part of the rat neocortex have been experimentally measured.
Detecting a pattern, he was able to fill in parameters for the remaining 2,950 pathways and to observe them working together in a simulation.

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