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Category: life extension – Page 624

A bioprinter – a three dimensional printer that uses living cells in suspension as its ink, and injection nozzles that can follow a CT scan blueprint – brings the dream of transplant surgery a step nearer: a bespoke body part grown in a laboratory and installed by a robot surgeon.

Scientists and clinicians began exploring tissue culture for transplant surgery more than 20 years ago. But researchers in the US report in Nature Biotechnology that they have harnessed a sophisticated, custom-designed 3D printer to print living muscle, cartilage and bone to repair battlefield injury.

The printed body parts so far have been tested only in laboratory animals. But tested organs have the size, structure and function for human use: once transplanted, they could be colonized by blood vessels and begin to grow and renew themselves normally. The study was backed by the US Armed Forces Institute for Regenerative Medicine.

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Researchers say they’ve developed a 3-D bioprinter that can create artificial body parts with ready-made channels for getting nutrients and oxygen to the implanted cells. If the technology can be perfected, the device could solve one of the biggest obstacles to creating 3D-printed organs: how to nourish masses of manufactured tissue.

“It can fabricate stable, human-scale tissue of any shape,” Anthony Atala, director of the Wake Forest Institute for Regenerative Medicine in North Carolina, said in a news release. “With further development, this technology could potentially be used to print living tissue and organ structures for surgical implantation.”

Atala and his colleagues describe their experiments with the bioprinter, known as the Integrated Tissue-Organ Printing System or ITOP, in a study published today by Nature Biotechnology.

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WIKIPEDIA, AYACOP Boosting levels of ghrelin, a hormone involved in hunger, keeps aging-related declines at bay in mice, according to a study published yesterday (February 2) in Molecular Psychiatry.

The authors gave mice a traditional Japanese medicine called rikkunshito or an extract from rikkunshito to stimulate hormone production. In three different mouse lines—two with shortened lifespans and another with a normal lifespan—the treatment resulted in the animals living longer.

“These findings suggest that the elevated endogenous ghrelin signaling has an important role in preventing aging-related premature death,” Akio Inui of Kagoshima University Graduate School of Medical and Dental Sciences and colleagues wrote in their report.

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A group of scientists are calling on the WHO to classify aging as a disease, asserting that we need to create a better classification for what happens to our bodies as we get older.

A new controversy is brewing, as one group of scientists is recommending that aging be considered a disease.

Scientists from Insilico Medicine are highlighting the need to create a more granular and applied classification for what happens to our bodies when we age. Their work is outlined in a recent paper published in Frontiers in Genetics. The classification that they argue for is based on the World Health Organization’s (WHO) International Statistical Classification of Diseases and Related Health Problems (ICD-11), which is expected to be finalized in 2018.

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As much as this article wants to promote that by 2020 that we will have terminator style robots acting as an in home nurse with patients (at least in the US) will be very hard to see. Most elderly as well as young children need more of human or personable interaction in their lives. I do highly suggest researchers (especially those that have studied children in orphanages where limited human interaction was available) to share your own insights of what happens to children who are without human contact at long periods as well as the elderly. I believe folks will rethink somethings and be more pragmatic in what these robots can and can do.

Published on Feb 3, 2016

A new generation of humanoid robots are coming in the 2020s, says innovation and industry expert Alec Ross. They will care for our aging populations and revolutionize manufacturing. Ross’ book is “The Industries of the Future The Industries of the Future.

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Very huge step forward for brain sensory mapping.

Data from functional magnetic resonance imaging (fMRI) have provided eye-popping pictures of the way the brain is wired, and allowed neuroscientists and laypeople alike to view intricate anatomical and functional connections between regions of the brain. But what if a new tool could be applied to MRI and other data, to listen to the way the brain works and how it is forged with connections?

An emerging effort to “sonify” imaging data is taking root at UT Dallas’ Center for Vital Longevity, in the lab of Dr. Gagan Wig. The approach, now funded by the Defense Advanced Research Projects Agency (DARPA), allows data to be represented by sounds from which a trained listener might be able to discern patterns of brain connectivity not readily seen in available visualization strategies.

Wig, an assistant professor in the School of Behavioral and Brain Sciences, is working with his UT Dallas colleagues Dr. Roger Malina, Arts and Technology Distinguished Chair, Scot Gresham-Lancaster, assistant professor in the sound design program in the School of Arts, Technology, and Emerging Communication, and a mix of scientists, computer programmers and artists to translate data to sight and sound.

Continue reading “Collaborative Minds Bringing Sounds to Brain Data in Yearlong Project” | >

Post-Human

Radically often it seems like something out of science fiction. But every day that passes we get closer to the technological singularity.

Visit: http://www.awarenessalgorithm.com/ ~ The awakening of the future …

Continue reading “A world where anything is possible, including immortality, has mental onboard computers, nanotechnology can do all reality” | >