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Archive for the ‘bioengineering’ category: Page 132

Jul 19, 2019

Stanford team stimulates neurons to induce particular perceptions in mice’s minds

Posted by in categories: bioengineering, biotech/medical, neuroscience

Hallucinations are spooky and, fortunately, fairly rare. But, a new study suggests, the real question isn’t so much why some people occasionally experience them. It’s why all of us aren’t hallucinating all the time.

In the study, Stanford University School of Medicine neuroscientists stimulated nerve cells in the visual cortex of to induce an illusory image in the animals’ minds. The scientists needed to stimulate a surprisingly small number of , or neurons, in order to generate the perception, which caused the mice to behave in a particular way.

“Back in 2012, we had described the ability to control the activity of individually selected neurons in an awake, alert animal,” said Karl Deisseroth, MD, Ph.D., professor of bioengineering and of psychiatry and behavioral sciences. “Now, for the first time, we’ve been able to advance this capability to control multiple individually specified cells at once, and make an animal perceive something specific that in fact is not really there—and behave accordingly.”

Jul 19, 2019

Regenerage International, IIMET, and Bioquark Inc. to Collaborate on Clinical Study in Biologic Age Reversal of Photodamaged Skin

Posted by in categories: aging, bioengineering, biotech/medical, business, chemistry, DNA, genetics, health, life extension, science

https://www.prweb.com/releases/regenerage_international_iime…449142.htm

Pretty girl applying moisturizing cream in front of mirror

Jul 19, 2019

Scientists Print Magnetic Liquid Droplets

Posted by in categories: bioengineering, biotech/medical, robotics/AI

Scientists at Berkeley Lab have made a new material that is both liquid and magnetic, opening the door to a new area of science in magnetic soft matter. Their findings could lead to a revolutionary class of printable liquid devices for a variety of applications from artificial cells that deliver targeted cancer therapies to flexible liquid robots that can change their shape to adapt to their surroundings. (Video credit: Marilyn Chung/Berkeley Lab; footage of droplets courtesy of Xubo Liu and Tom Russell/Berkeley Lab)

Jul 18, 2019

Viewpoint: Why CRISPR-edited crops should be allowed in organic agriculture

Posted by in categories: bioengineering, biotech/medical, food, genetics, health

A University of California, Berkeley professor stands at the front of the room, delivering her invited talk about the potential of genetic engineering. Her audience, full of organic farming advocates, listens uneasily. She notices a man get up from his seat and move toward the front of the room. Confused, the speaker pauses mid-sentence as she watches him bend over, reach for the power cord, and unplug the projector. The room darkens and silence falls. So much for listening to the ideas of others.

Many organic advocates claim that genetically engineered crops are harmful to human health, the environment, and the farmers who work with them. Biotechnology advocates fire back that genetically engineered crops are safe, reduce insecticide use, and allow farmers in developing countries to produce enough food to feed themselves and their families.

Now, sides are being chosen about whether the new gene editing technology, CRISPR, is really just “GMO 2.0” or a helpful new tool to speed up the plant breeding process. In July, the European Union’s Court of Justice ruled that crops made with CRISPR will be classified as genetically engineered. In the United States, meanwhile, the regulatory system is drawing distinctions between genetic engineering and specific uses of genome editing.

Jul 15, 2019

Bolonkin Explores Ultimate Uploading and Technology

Posted by in categories: bioengineering, biotech/medical, nanotechnology, nuclear energy

One of the main speculations about future technology is uploading. This is where our minds are copied in exact detail from our biological physical bodies and then created in artificial bodies. Alexander Bolonkin has posited many kinds of technology over the decades. He has a recent work which is summarized here where he considers that future uploading will mean that we can then use super-technology (nanotechnology, nuclear fusion etc…) to make people into literal gods and supermen. We can use control of matter, energy and information to make what he calls the E-man. Bolonkin then indicates that uploading and creation of minds could be used for the resurrection of long-dead people. This would be where we create the very close approximation of dead people. This would be like using gene editing to turn an African Elephant into a Whooly Mammoth. The vast technological capability would let us actualize what would be a simulation into living entities.

Bolonkin’s Case for E-Man and Resurrection

Alexander Bolonkin looks at methods and possibilities for electronic resurrection of long-dead outstanding personalities. He also considers the principles and organization of the new E-society, its goals and conditions of existence.

Jul 15, 2019

Lipid Nanoparticles Deliver CRISPR/Cas9 into Organs with High Efficiency

Posted by in categories: bioengineering, biotech/medical, genetics, nanotechnology

Researchers at Tufts University and the Chinese Academy of Sciences have developed a new lipid nanoparticle which can deliver CRISPR/Cas9 gene editing tools into organs with high efficiency, suggesting that the system is promising for clinical applications.

The CRISPR/Cas9 system is currently being investigated as a way to treat a variety of diseases with a genetic basis, including Duchenne muscular dystrophy, Huntington’s, and sickle cell disease. While the system has significant promise, there are some issues that need to be resolved before it can be used clinically. CRISPR/Cas9 is a large complex, and it is difficult to get it inside cell nuclei where it is needed for gene editing.

Scientists have tried a variety of delivery vehicles for CRISPR/Cas, which are intended to carry the gene editing tools to their location and help them enter the cell and nucleus. These have included viruses and various types of nanoparticle. However, to date, these have suffered from low efficiency, whereby very little of the delivered agent reaches the cells or organs where it is needed.

Jul 11, 2019

Bioengineered Organs: Could Change be the horizon?

Posted by in categories: bioengineering, biotech/medical

The science of tissue engineering has been constructed on a foundation of a very simple concept; take out the patient’s own cells, grow them in a sterile environment similar to that of a human body and infuse them on a scaffolding material to provide 3-dimensional support. With this recipe, you may have your own laboratory-grown organ ready! It is interesting to note that quite a few patients have experienced the benefits of this fastest growing technology. Could change be on the horizon?

Introduction

Various scientific investigations have been frequently hailed as putting forth a novel yet a breakthrough treatment to change the meaning of lives of many patients, who have been suffering from degenerative diseases since long. However, it should be noted that researchers have to travel a really long road to turn a laboratory invention into viable clinical modalities. In this regard, current medical issues associated with gastrointestinal functioning are marred with various challenges; new solutions to take over the control are sorely needed.

Jul 11, 2019

ideaXme — Eugene Borukhovich, Global Head, Digital Health Incubation (G4A) at Bayer — Ira Pastor

Posted by in categories: aging, big data, bioengineering, biotech/medical, business, computing, drones, electronics, finance, health

Jul 10, 2019

Self-destructing mosquitoes and sterilized rodents: the promise of gene drives

Posted by in categories: bioengineering, biotech/medical, genetics

The technical challenges are not as daunting as the social and diplomatic ones, says bioengineer Kevin Esvelt at the Massachusetts Institute of Technology (MIT) Media Lab in Cambridge, who was among the first to build a CRISPR-based gene drive. “Technologies like this have real-world consequences for people’s lives that can be nearly immediate.”


Altering the genomes of entire animal populations could help to defeat disease and control pests, but researchers worry about the consequences of unleashing this new technology.

Jul 9, 2019

Neuroscience and artificial intelligence can help improve each other

Posted by in categories: bioengineering, biological, information science, neuroscience, robotics/AI

Despite their names, artificial intelligence technologies and their component systems, such as artificial neural networks, don’t have much to do with real brain science. I’m a professor of bioengineering and neurosciences interested in understanding how the brain works as a system – and how we can use that knowledge to design and engineer new machine learning models.

In recent decades, brain researchers have learned a huge amount about the physical connections in the brain and about how the nervous system routes information and processes it. But there is still a vast amount yet to be discovered.

At the same time, computer algorithms, software and hardware advances have brought machine learning to previously unimagined levels of achievement. I and other researchers in the field, including a number of its leaders, have a growing sense that finding out more about how the brain processes information could help programmers translate the concepts of thinking from the wet and squishy world of biology into all-new forms of machine learning in the digital world.