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Archive for the ‘3D printing’ category: Page 59

Jul 12, 2019

Neurosurgeons successfully implant 3D printed skull

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

A 22-year-old woman from the Netherlands who suffers from a chronic bone disorder — which has increased the thickness of her skull from 1.5cm to 5cm, causing reduced eyesight and severe headaches — has had the top section of her skull removed and replaced with a 3D printed implant.

The operation was performed by a team of neurosurgeons at the University Medical Centre Utrecht and the university claims this is this first instance of a successful 3D printed cranium that has not been rejected by the patient.

Jul 11, 2019

Op-ed | Graphene goes galactic

Posted by in categories: 3D printing, habitats, solar power, space travel, sustainability

This op-ed originally appeared in the June 10, 2019 issue of SpaceNews magazine.

If humanity is to ever settle new planets, we will need radically new technologies; this much is obvious. But we may already have the perfect material to step up and fill the role: graphene. It is easily transported, easily manipulated, and an abundance of carbon in the galaxy could bode well for graphene, which is a carbon-based material. Its strength and versatility could well become a crucial component in colonization. For instance, spacecraft filled with advanced, massive 3D printers could ferry intrepid settlers to new corners of the galaxy, supplying a near-endless supply of material and equipment, perhaps even being used to construct homes that can withstand the conditions of other worlds.

Graphene’s discovery in 2004 sparked the flame of endless possibility within the science and technology communities due to its astounding properties. Only a single atomic layer thick and constructed in a lattice, honeycomb-like formation, graphene is nearly 200 times stronger than steel and better at conducting electricity and heat than any other conductor. It’s flexible, allows 97 percent of white light to pass through it (making it perfect for solar energy), and the list of properties continues.

Jul 9, 2019

A 3D-printed heart with blood vessels has been made using human tissue

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

The rabbit-sized heart was made from a patient’s own cells and tissues, using techniques that could help to increase the rate of successful heart transplants in future.

How it worked: A biopsy of tissue was taken from patients, and then its materials were separated. Some molecules, including collagen and glycoproteins, were processed into a hydrogel, which became the printing “ink.” Once the hydrogel was mixed with stem cells from the tissue, the researchers from Tel Aviv University were able to create a patient-specific heart that included blood vessels. The idea is that such a heart would be less likely to be rejected when transplanted. The study was published in the journal Advanced Science.

Let it flow: Until now, researchers have only been able to print simple tissues lacking blood vessels, according to the Jerusalem Post.

Jul 6, 2019

A BFF in Space! Bioprinter Will 3D-Print Human Tissue on the Space Station

Posted by in categories: 3D printing, bioprinting, space

The futuristic gizmo will launch this month.

Jul 5, 2019

Researchers develop promising reconstruction method based on 3D-printed esophageal grafts

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

The loss of complete segments of the esophagus often results from treatments for esophageal cancer or congenital abnormalities, and current methods to re-establish continuity are inadequate. Now, working with a rat model, researchers have developed a promising reconstruction method based on the use of 3D-printed esophageal grafts. Their work is published in Tissue Engineering, a peer-reviewed journal from Mary Ann Liebert, Inc., publishers.

Eun-Jae Chung, MD, PhD, Seoul National University Hospital, Korea, Jung-Woog Shin, PhD, Inje University, Korea, and colleagues present their research in an article titled “Tissue-Engineered Esophagus via Bioreactor Cultivation for Circumferential Esophageal Reconstruction”. The authors created a two-layered tubular scaffold with an electrospun nanofiber inner layer and 3D-printed strands in the outer layer. After seeding human mesenchymal stem cells on the inner layer, constructs were cultured in a bioreactor, and a new surgical technique was used for implantation, including the placement of a thyroid gland flap over the scaffold. Efficacy was compared with omentum-cultured scaffolding technology, and successful implantation and esophageal reconstruction were achieved based on several metrics.

Dr. Chung and colleagues from Korea present an exciting approach for esophageal repair using a combined 3D printing and bioreactor cultivation strategy. Critically, their work shows integration of the engineered esophageal tissue with host tissue, indicating a clinically viable strategy for circumferential esophageal reconstruction.”

Jul 3, 2019

Asteroid mining market to be worth $3.9bn by 2025

Posted by in categories: 3D printing, space

Ongoing and future space missions, rising investment in new mining technologies, and the use of materials obtained from asteroids in 3D printing will drive the growth of the asteroid mining market, according to Allied Market Research.

Jul 1, 2019

Futureseek Daily Link Review; 02 July 2019

Posted by in categories: 3D printing, robotics/AI, space

* Scientists Took an M.R.I. Scan of an Atom * Former NASA Flight Director Gene Kranz Restores Mission Control In Houston * Jeff Hawkins: Thousand Brains Theory of Intelligence

* Google’s robots.txt Parser is Now Open Source * Dear Agile, I’m Tired of Pretending * 4 Ways to Debug your Deep Neural Network

* How 3D printing allows scientists to grow new human hairs * NASA is testing how its new deep-space crew capsule handles a rocket emergency * Fake noise will be added to new electric cars starting today in the EU .

Jun 27, 2019

Machine learning makes a better Luke Skywalker hand

Posted by in categories: 3D printing, biotech/medical, cyborgs, robotics/AI, transhumanism

A 3D-printed prosthetic hand controlled using a new AI-based approach could significantly lower the cost of bionic limbs for amputees.

Real need: There are approximately 540,000 upper-limb amputees in the United States, but sophisticated “myoelectric” prosthetics, controlled by muscle contractions, are still very expensive. Such devices cost between $25,000 and $75,000 (not including maintenance and repair), and they can be difficult to use because it is hard for software to distinguish between different muscle flexes.

Handy invention: Researchers in Japan came up with a cheaper, smarter myoelectric device. Their five-fingered, 3D-printed hand is controlled using a neural network trained to recognize combined signals—or, as they call them, “muscle synergies.” Details of the bionic hand are published today in the journal Science Robotics.

Jun 26, 2019

International Space Station Will Test 3D-Printed Materials In Orbit

Posted by in categories: 3D printing, satellites, surveillance

New 3D-printed materials are going to space thanks to a recently funded partnership between Israel’s NanoDimension and Florida’s Harris Corp.

The companies plan to create new materials to reduce the manufacturing of small satellites, an exceedingly popular market right now for applications ranging from weather observations to remote surveillance.

They aim to fly their materials on an external platform of the International Space Station for a year. The goal is to better understand how 3D-printed components (such as circuits and materials) withstand the space environment, which includes extreme temperature swings and high radiation. The launch date of the project was not disclosed.

Jun 26, 2019

Baldness breakthrough uses 3D-printed “hair farms” to grow new hair follicles

Posted by in categories: 3D printing, food, sustainability

An exciting breakthrough from Columbia University researchers demonstrates a new way to grow human hair follicles using 3D printed molds. This is the first time human hair follicle cells have been grown completely in lab conditions, opening up a potentially unlimited source of hair follicles for future hair restoration surgical procedures.

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