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Category: 3D printing

A 3D-Bioplotter® was employed to 3D print (3DP) a humic acid-polyquaternium 10 (HA-PQ10) controlled release fixed dose combination (FDC) tablet comprising of the anti-HIV-1 drugs, efavirenz (EFV), tenofovir disoproxil fumarate (TDF) and emtricitabine (FTC).

Chemical interactions, surface morphology and mechanical strength of the FDC were ascertained. In vitro drug release studies were conducted in biorelevant media followed by in vivo study in the large white pigs, in comparison with a market formulation, Atripla®. In vitro-in vivo correlation of results was undertaken.

EFV, TDF and FTC were successfully entrapped in the 24-layered rectangular prism-shaped 3DP FDC with a loading of ∼12.5 mg/6.3 mg/4 mg of EFV/TDF/FTC respectively per printed layer. Hydrogen bonding between the EFV/TDF/FTC and HA-PQ10 was detected which was indicative of possible drug solubility enhancement. The overall surface of the tablet exhibited a fibrilla structure and the 90° inner pattern was determined to be optimal for 3DP of the FDC. In vitro and in vivo d rug release profiles from the 3DP FDC demonstrated that intestinal-targeted and controlled drug release was achieved.

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The new technology enables the printing of personalized medications out of hydrogel objects, producing complex structures which can expand, change shape and activate on a delayed schedule. By prescribing personalized medicines, doctors will be able to accurately tailor the exposure and dosage levels for individual patients.

“We now have the technology to replace standard or traditional formulations. The population is getting older so we need to think of solutions,” said Benny.

“We can now think about combining drugs together into one drug instead of ten, to adjust the kinetics of drugs and improve patient compliance in drug administration.”

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Researchers from the Dutch Delft University of Technology and NASA/ESA recommend that we build a Mars base with the use of bacteria. In short, the idea is to send a spacecraft containing bacteria to Mars several years ahead of sending human settlers. Those bacteria can then start mining for iron that will later be used by human pioneers when building settlements.

Benjamin Lehner, a Ph.D. student from the Delft University of Technology, mapped out a complete plan to adequately prepare for human settlers. He proposes to send an initial capsule containing a bioreactor, an uncomplicated rover that is capable of digging, and a 3D printer. The reactor will be filled with a type of bacteria called ‘Shewanella oneidensis’ that can convert the non-usable naturally occurring iron in the Martian soil to usable magnetite that is easy to extract. This magnetite can then be converted to components like iron plates with the 3D printer.

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Any comments?

Ultraprecise 3D printing technology is a key enabler for manufacturing precision biomedical and photonic devices. However, the existing printing technology is limited by its low efficiency and high cost. Professor Shih-Chi Chen and his team from the Department of Mechanical and Automation Engineering, The Chinese University of Hong Kong (CUHK), collaborated with the Lawrence Livermore National Laboratory to develop the Femtosecond Projection Two-photon Lithography (FP-TPL) printing technology.

By controlling the spectrum via temporal focusing, the laser 3D printing process is performed in a parallel layer-by-layer fashion instead of point-by-point writing. This new technique substantially increases the printing speed by 1,000—10,000 times, and reduces the cost by 98 percent. The achievement has recently been published in Science, affirming its technological breakthrough that leads nanoscale 3D printing into a new era.

The conventional nanoscale 3D , i.e., two-photon polymerization (TPP), operates in a point-by-point scanning fashion. As such, even a centimeter-sized object can take several days to weeks to fabricate (build rate ~ 0.1 mm3/hour). The process is time-consuming and expensive, which prevents practical and industrial applications. To increase speed, the resolution of the finished product is often sacrificed. Professor Chen and his team have overcome the challenging problem by exploiting the concept of temporal focusing, where a programmable femtosecond light sheet is formed at the focal plane for parallel nanowriting; this is equivalent to simultaneously projecting millions of laser foci at the , replacing the traditional method of focusing and scanning laser at one point only. In other words, the FP-TPL technology can fabricate a whole plane within the time that the point-scanning system fabricates a point.

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NASA has tentative plans for a manned mission to Mars sometime in the 2030s. Between now and then, there’s still much that needs to be sorted. To start, massive dust storms, high levels of radiation, low temperatures and a lack of water make the Martian surface an unfriendly place for long-term visits. Taming it for human life will likely prove one of the most demanding and complex engineering puzzles in human history. With those extraordinary obstacles in mind, in 2015 NASA announced the 3D-Printed Habitat Challenge: an open call asking designers and architects outside the traditional aerospace industry to create plans for Martian living centred around 3D printing. One of 10 finalists announced in 2019, this plan from the design practices HASSELL and Eckersley O’Callaghan envisions teams of 3D-printing robots building a protective shield on the Martian surface several months in advance of a human landing. Upon arrival, astronauts would then work alongside the autonomous robots to piece together an inflatable, modular habitat.

Video by LightField London.

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I am in shock… Google suddenly as yahoo are allowing conjecture and mendacity be seen as public or scientific opinion. Here is another confused mind who towards the end of her rant quotes Christian scripture as basis to stop Life extension-Transhumanism???

When I say to these minds Behold the leader of Christianity stood for Life abundant-Super Longevity and I can prove such. No matter what lost evangelist or preacher tells you Jesus was a medical researcher of extraordinary magnitude…

NOW BEHOLD THE LOST in this article… https://www.rodofironministries.com/…/transhumanism-and-imm… Respect r.p.berry & AEWR wherein aging now ends we have found the many causes of aging and we have located an expensive cure. We search for partners-investors to now join us in agings end… gerevivify.blogspot.com/

Whether we like it or not, the hybrid age is already here. From genetic manipulation, to AI technology, to nano-technology, robotics, 3D printing, brain mapping, super computing, the list is literally endless. Futurists and Transhumanist philosophers believe that science and technology are limitless, and that humanity’s current cultural traditions and mindset are the mechanisms in place that prohibit human development.

Mankind has experienced formidable technological growth in the past from the early ancestors to the Agrarian Age, the Industrial Age in the 18th century, and the Information Age in the 1970s, from their point of view, we are simply going through another revolutionary leap into what they call, the Hybrid Age.

The Transhumanist Movement, also known as H+ is an intellectual, cultural and political movement that supports technological enhancements in the human body through the use of genetics, robotics, synthetic biology, AI technology among others to modify the physiology, psyche, memory and progeny of a human being and ultimately achieve immortality on earth, (a procedure they believe can be reached within the next decade) whereby human consciousness can be uploaded into a robot, cyborg or possibly, a human clone. The sci-fi novel “Altered Carbon” by Richard K. Morgan captures a cornucopia of technological concepts that are, believe it or not, in experimental stages across the globe, methods such as: human hybridization, CRISPR-technology—Chinese scientists have used CRISPR for gene-editing on 86 human patients; limb regeneration, bionic augmentation, the making of super-soldiers, cloning, Cryonics and the growing interest in information-theoretic death, neuropreservation, suspended animation, molecular nano-technology and so on. Sounds far-fetched right?

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3D printing technology is changing and will change pretty much everything. Besides printing the intermittent novelty project at home with a desktop printer, additive manufacturing or 3D printing technology is being used in a large group of businesses changing the manner in which we design, build, create, and even eat.

NASA is planning to use 3D printing technology to construct housing on Mars for future colonies while organizations like byFlow are using the emerging technology to create food and intricate edible tableware. The uses and applications appear to be both limitless and exciting, yet this is only the beginning. Things being what they are, what sort of changes can we expect to see in the medical industry?

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