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Archive for the ‘bioengineering’ category: Page 53

Nov 23, 2022

Dr Renée Deehan — VP, Science & AI, InsideTracker — Evidence-Based And Actionable Wellness Solutions

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

Evidence-Based And Actionable Health, Wellness And Longevity Solutions — Dr. Renee DeHaan, Ph.D. — VP, Science & AI, InsideTracker


Dr. Renée Deehan, Ph.D. is the VP of Science & Artificial Intelligence at InsideTracker (https://www.insidetracker.com/), and leads a science team that builds and mines the world’s largest data set of blood, DNA, fitness tracking and phenotypic data from healthy people, creating evidence-based solutions that are simple, clear, and actionable.

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Nov 23, 2022

3D Printing in Breast Reconstruction: From Bench to Bed

Posted by in categories: 3D printing, bioengineering, bioprinting, biotech/medical, computing

Circa 2021:3


Surgical management of breast cancer often results in the absence of the breast. However, existing breast reconstruction methods may not meet the need for a replacement tissue. Tissue engineering with the use of emerging materials offers the promise of generating appropriate replacements. Three-dimensional (3D) printing technology has seen a significantly increased interest and application in medically-related fields in the recent years. This has been especially true in complex medical situations particularly when abnormal or complicated anatomical surgical considerations or precise reconstructive procedures are contemplated. In addition, 3D bio-printing which combines cells with bio-material scaffolds offers an exciting technology with significant applications in the field of tissue engineering. The purpose of this manuscript was to review a number of studies in which 3D printing technology has been used in breast reconstructive surgical procedures, and future directions and applications of 3D bio-printing.

Breast cancer is the most common cancer diagnosed among US women and is second only to lung cancer as a cause of cancer death among women as of 2019. Because ~268,600 (almost six times than DCIS) new cases prove to be an invasive type of breast cancer (1), many women had to choose the removal of the breast, with immediate consideration for a replacement tissue. Although this was satisfactory in many patients, either saline or gel-filled breast implants (2) do carry real risks of complications such as infection, capsular contracture, implant dislocation, or deformities (3, 4). The option of autologous reconstruction can be more texturally natural aesthetically, but it requires a more complex procedure, significant time and expense, and possible muscle weakness or hernia formation at the tissue donor site (5). Tissue engineering intends to address these limitations by combining the 3D printing technology with synthetic or natural structural elements.

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Nov 22, 2022

Scientists Created Synthetic Muscle That’s Stronger Than Kevlar

Posted by in categories: bioengineering, biotech/medical

Researchers believe that synthetic muscle fibers could be used in a wide variety of sustainable and environmentally friendly industrial applications, including textiles, biomedicine, and tissue engineering. In a world where it takes up to 1,800 gallons of water to produce a single pair of jeans, the development of such environmentally safe processes that provide high-strength materials for industrial applications is a great step forward.


How strong can a muscle ever get? Can it have more endurance than metal? Can it be sturdier than Kevlar? While you might be inclined to answer the above in the negative, please pause, for scientists have succeeded in developing synthetic muscle that’s stronger than Kevlar. How about that for a flex?

The science and other stuff to know

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Nov 22, 2022

Dr. David Markowitz, PhD — IARPA — High-Risk, High-Payoff Research For National Security Challenges

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

High-Risk, High-Payoff Bio-Research For National Security Challenges — Dr. David A. Markowitz, Ph.D., IARPA


Dr. David A. Markowitz, Ph.D. (https://www.markowitz.bio/) is a Program Manager at the Intelligence Advanced Research Projects Activity (IARPA — https://www.iarpa.gov/) which is an organization that invests in high-risk, high-payoff research programs to tackle some of the most difficult challenges of the agencies and disciplines in the U.S. Intelligence Community (IC).

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Nov 21, 2022

Magnetically driven piezoelectric soft microswimmers for neuron-like cell delivery and neuronal differentiation†

Posted by in categories: bioengineering, chemistry, neuroscience

b Department of Polymer Science and Engineering and Key Laboratory of High Performance Polymer Materials and Technology of MOE, School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210,023, China.

c Institute of Chemical and Bioengineering, ETH Zurich, Vladimir Prelog Weg 1, 8093 Zurich, Switzerland.

Received 21st February 2019, Accepted 17th April 2019.

Nov 20, 2022

NEW NOW. Transhumanism: beyond the human frontier?

Posted by in categories: bioengineering, biotech/medical, education, ethics, health, policy, transhumanism

The fourth discussion of the NEW NOW program, “Transhumanism: Beyond the Human Frontier?”, took place on December 16.

Together with our guest experts, we tried to identify the latest technology that has either already become a reality or is currently in development, focusing on the ethical aspects of the consequences that ensue. We reflected on the question of whether the realization of transhumanist ideas is likely to entail a radical change in the ways people relate to one another. How far are we prepared to go in changing our bodies in order to attain these enhanced capacities? We will attempt to identify the “human frontier”, beyond which the era of posthumanism awaits.

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Nov 20, 2022

Scientists Claim to Have Discovered the “Secret Ingredient for Building Life”

Posted by in categories: bioengineering, chemistry

A team of researchers from Purdue University claim to have discovered the “chemistry behind the origin of life” on Earth in simple droplets of water, and they’re using strikingly strong language to celebrate the findings.

Graham Cooks, chemistry professor at Purdue and lead author of a new paper published in the journal Proceedings of the National Academy of Sciences, called it a “dramatic discovery” and the “secret ingredient for building life” in a statement.

“This is essentially the chemistry behind the origin of life,” he added. “This is the first demonstration that primordial molecules, simple amino acids, spontaneously form peptides, the building blocks of life, in droplets of pure water.”

Nov 15, 2022

Transforming bacterial cells into living artificial neural circuits

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

Bringing together concepts from electrical engineering and bioengineering tools, Technion and MIT scientists collaborated to produce cells engineered to compute sophisticated functions— biocomputers of sorts.

Graduate students and researchers from Technion—Israel Institute of Technology Professor Ramez Daniel’s Laboratory for Synthetic Biology & Bioelectronics worked together with Professor Ron Weiss from the Massachusetts Institute of Technology to create genetic “devices” designed to perform computations like artificial neural circuits. Their results were recently published in Nature Communications.

The was inserted into the bacterial cell in the form of a plasmid: a relatively short DNA molecule that remains separate from the bacteria’s “natural” genome. Plasmids also exist in nature, and serve various functions. The research group designed the plasmid’s genetic sequence to function as a simple computer, or more specifically, a simple artificial neural network. This was done by means of several genes on the plasmid regulating each other’s activation and deactivation according to outside stimuli.

Nov 15, 2022

Synthetic biology circuits can respond within seconds

Posted by in categories: bioengineering, biological, chemistry

Synthetic biology offers a way to engineer cells to perform novel functions, such as glowing with fluorescent light when they detect a certain chemical. Usually, this is done by altering cells so they express genes that can be triggered by a certain input.

However, there is often a long lag time between an event such as detecting a molecule and the resulting output, because of the time required for to transcribe and translate the necessary genes. MIT synthetic biologists have now developed an alternative approach to designing such , which relies exclusively on fast, reversible protein-protein interactions. This means that there’s no waiting for genes to be transcribed or translated into proteins, so circuits can be turned on much faster—within seconds.

“We now have a methodology for designing protein interactions that occur at a very fast timescale, which no one has been able to develop systematically. We’re getting to the point of being able to engineer any function at timescales of a few seconds or less,” says Deepak Mishra, a research associate in MIT’s Department of Biological Engineering and the lead author of the new study.

Nov 15, 2022

The Future of Consciousness — Andrés Gómez Emilsson

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

Synopsis: In this talk we articulate a positive vision of the future that is both viable given what we know, and also utterly radical in its implications. We introduce two key insights that, when taken together, synergize in powerful ways. Namely, (a) the long-tails of pleasure and pain, and (b) the correlation between wellbeing, productivity, and intelligence. This informs us how to distribute resources if we want to maximize wellbeing. Given the weight of the extremes, it is important to take them into account. But because of the causal significance of more typical hedonic ranges, engineering our baseline is a key consideration. This makes it natural to break down the task of paradise engineering into three components:

Avoid negative extremes.
increase hedonic baseline, and.
achieve new heights of experience.

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