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Archive for the ‘neuroscience’ category: Page 890

Feb 16, 2017

The strange link between the human mind and quantum physics

Posted by in categories: biotech/medical, neuroscience, quantum physics

The problems that I have seen when limiting the topic of quantum mechanics to the human mind topic is that the relationship around Quantum Mechanics to biology is missed completely. For example, it has only be in the recent few years that scientists began to understand Quantum Mechanics Action of ELF electromagnetic fields and its relationship to human cells. And, this find has open valuable research in how cells can (through electromagnetic fields can spin a low temperatures) mimic telepathy communicating between the human cells.


Nobody understands what consciousness is or how it works. Nobody understands quantum mechanics either. Could that be more than coincidence?

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Feb 15, 2017

Combination immunotherapies kill brain cancer in mice – study

Posted by in categories: biotech/medical, neuroscience

Scientists have discovered a groundbreaking immunotherapy combination that kills brain cancer, promotes long-term immunity and is highly effective against breast cancer and myeloma.

Researchers at the Children’s Hospital of Eastern Ontario (CHEO) in Ottawa had the promising findings published Wednesday in the journal ‘Nature Communications’.

The study outlines how the team developed a unique combination of drugs known as SMAC Mimetics and immune checkpoint inhibitors (ICIs) that produce high kill rates for cancer tumor cells in mice.

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Feb 14, 2017

How Soon Will Genetic Enhancement Create Smarter Humans?

Posted by in categories: genetics, neuroscience

This video is part of a series on genius, in proud collaboration with 92Y’s 7 Days of Genius Festival.

In the late 1990s, scientists thought they were close to locating specific genes that controlled for human intelligence in all its manifestations: musical genius, analytical acumen, physical prowess, etc. But the truth turns out to be more complicated, says Harvard psychologist and linguist Steven Pinker. There are many genes — perhaps thousands — that affect human intelligence, and while manipulating them may have predictable benefits, the adverse consequences remain unpredictable. Thus experimenting with our so-called intelligence genes will likely be met with high levels of skepticism in caution. It’s proof, says Pinker, that technological advancement doesn’t always march to the drum beat of inexorable forward progress.

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Feb 14, 2017

Brain contains many networks of interconnected neurons that send signals with a rhythmic pattern

Posted by in categories: biotech/medical, neuroscience

Nice write up on the physical sensory parts of the brain and central nervous system. However, everyone is proving and continues to prove that with the electromagnetic spin properties tied to human cells is showing that there is the additional layer of cell to cell communication occurring within the human body as well as these cells which are charged are also able to connect with other charged particles in a room or location. My guess is we will need all to effectively enable meaningful/ useful system intelligence to provide real pragmatic value.


Not everyone is Fred Astaire or Michael Jackson, but even those of us who seem to have two left feet have got rhythm–in our brains. From breathing to walking to chewing, our days are filled with repetitive actions that depend on the rhythmic firing of neurons. Yet the neural circuitry underpinning such seemingly ordinary behaviors is not fully understood, even though better insights could lead to new therapies for disorders such as Parkinson’s disease, ALS and autism.

Recently, neuroscientists at the Salk Institute used stem cells to generate diverse networks of self-contained spinal cord systems in a dish, dubbed circuitoids, to study this rhythmic pattern in neurons. The work, which appears online in the February 14, 2017, issue of eLife, reveals that some of the circuitoids–with no external prompting–exhibited spontaneous, coordinated rhythmic activity of the kind known to drive repetitive movements.

Continue reading “Brain contains many networks of interconnected neurons that send signals with a rhythmic pattern” »

Feb 14, 2017

Replicants with Quantum Brains Will Run More Efficiently

Posted by in categories: neuroscience, quantum physics

I do have many friends working on this commercially; however, I prefer the work we’re doing in the Quantum Bio base around brain advancement v. deep mind learning/ intelligence research.


A site dedicated to the sciences, recent scientific discoveries and advances.

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Feb 14, 2017

IARPA launches crowdsourcing research effort

Posted by in categories: law, neuroscience, policy

I believe we’re already doing this in other programs around SWARM Data Intelligence. Wish they would re-leverage other US Govt. programs and their work…


WASHINGTON. The Intelligence Advanced Research Projects Activity (IARPA), part of the Office of the Director of National Intelligence, has announced that it is embarking on a multiyear research effort to develop and test large-scale, structured collaboration methods to improve reasoning. If the project is successful, the Crowdsourcing Evidence, Argumentation, Thinking and Evaluation (known as “CREATE”) program will improve analysts’ and decisionmakers’ understanding of the evidence and assumptions that support or conflict with their conclusions.

The agency is confident that the knowledge gained through this project will improve its ability to provide accurate, timely, and well-supported analyses of the complex issues and questions facing the community.

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Feb 11, 2017

Intel’s Quantum Computing

Posted by in categories: biological, computing, neuroscience, quantum physics

https://youtube.com/watch?v=6ClSRrM84Gk

More on Intel’s plans for a Quantum Neuromorphic chip to mimic the brain on QC. Should be interesting as they will be researching Quantum Biology/ Biosystem technology of the human brain to make this happen. And, will also be assessing cell electromagnetic spin, much of the other quantum mechanic properties of the brain. So, consider the race is on now for a Quantum Biosystem brain. And, the question now is which one will get there 1st and which type? DARPA’s Quantum Biosystem enhanced brain or one like Intel’s Quantum Neuromorphic chip mimicking the human brain?

Things are about to become very interesting for all.

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Feb 9, 2017

This technology could finally make brain implants practical

Posted by in category: neuroscience

Harvard Medical School is testing a new design of a brain implant meant to restore vision to the blind.

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Feb 9, 2017

Brain to Brain Connectivity During Distal Psycho-informational Influence Sessions, Between Spatially and Sensory Isolated Subjects

Posted by in categories: business, life extension, neuroscience, quantum physics

Sharing more research conducted on Quantum Bio’s Brain to Brain communications. For all my hardware/ device friends exploring their own futures in a QC world. This was resurfaced in Jan 2017; the report itself is still relevant. Quantum Bio truly will change our device markets, IoT, and medicine/ healthcare drastically. This will be where we truly see tech and bio as one.

Want to see real convergence of tech and bio meaning no more need for smart devices, improved immunology in humans to counteract proactively disease and illness, accelerate heal times from injuries, reverse aging, etc. then you need to definitely engage Quantum bio in your work and discoveries as many have seen its potential and making changes leveraging this technology.


What you do on the Internet is nobody’s business but yours. At ProxySite.com, we stand between your web use and anyone who tries to sneak a peek at it. Instead of connecting directly to a website, let us connect to the website and send it back to you, and no one will know where you’ve been. Big Brother (or other, less ominous snoops) won’t be able to look over your shoulder and spy on you to see what you’re reading, watching or saying.

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Feb 8, 2017

Intestine, Liver, Kidney Proximal Tubule, Blood-Brain Barrier and Skeletal Muscle

Posted by in categories: bioengineering, biotech/medical, life extension, neuroscience, quantum physics

This is definitely a share that is interesting to many studying synthetic organs and their acceptance into the human body as well as the work occurring on Quantum biology as well.


The goal of in vitro and in vivo toxicity testing is to identify compounds that would predict adverse reactions in humans. Olson et al. found that only 70% of human toxicity was predicted from animal testing. Currently we rely on traditional toxicity testing in animals, a 1930’s methodology that is now challenged due to questionable relevance to human risk, high cost, ethical concerns, and throughput that is too limited for the nearly 80,000 industrial chemicals not yet tested for safety. Additionally, testing usually extrapolates acute, high dose animal results to chronic, low dose human exposures, thereby risking rejection or limiting the use of drugs, industrial chemicals or consumer products. Moreover, the ability of lab animal target organ toxicity to predict dose-limiting toxicity in the corresponding human organ varies widely, from a low of 30% for human cutaneous toxicity, to 50–60% for human hepatotoxicity, to a high of 90% for hematological drug toxicity. Animal drug efficacy models are also notoriously discordant. In an analysis of six drugs to treat head injury, hemorrhage, acute ischemic stroke, neonatal respiratory distress syndrome, and osteoporosis, it was found that efficacy was similar in animals and humans for three drugs but was dissimilar for another three. In oncology drug development, animal models often over-predict anti-tumor efficacy in humans3,4. Examples such as these highlight the need to continue research into methods that reduce the dependence on laboratory animals for toxicity testing of environmental chemicals, determine efficacy and toxicity in drug development, serve as a mimic of human diseases, and provide patient-specific guidance in the emerging field of precision medicine.

Recent advances in bioengineered materials, microfluidic technology, and the availability of human primary, immortalized, and induced pluripotent stem cell (iPSC)-derived cells are enabling development of human microphysiological systems (MPS), sometimes called “organs-on-a-chip” or “human-on-a-chip,” that use multiple organ-specific human cells to recapitulate many functional and structural properties of a human organ. It is now generally accepted and supported by data that cellular responses to drugs in most human organs are more accurately approximated in 3D cell cultures than in traditional static 2D cell cultures5,6. Microfluidic perfusion further improves model performance by providing a flow of nutrients and oxygen and the removal of waste products from the cell cultures. Physiologically relevant flow increases oxygen consumption, Krebs cycle activity and secretion of synthesized proteins, and decreases expression of the hypoxia HIF1 gene. Flow also improves the absorption and metabolism of compounds like benzo[a]pyrene6,8,9. The large number of recent publications reviewing organ MPS models indicates a high degree of interest by industrial and academic researchers, granting agencies and other stakeholders10,11,12,13. In addition to the stand-alone MPS, investigators are linking MPS to study organ-organ functional interactions, efficacy, PK and toxicology14,15,16,17,18.

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