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Category: bioprinting

3D printing is revolutionizing microbial electrochemical systems (MES) by enabling precise reactor design, custom electrode fabrication, and enhanced bioprinting applications. These innovations optimize pollutant degradation and energy production, with significant implications for sustainability and environmental management.

Microbial electrochemical systems (MES) are emerging as a promising technology for addressing environmental challenges by leveraging microorganisms to transfer electrons. These systems can simultaneously degrade pollutants and generate electricity, making them valuable for sustainable wastewater treatment and energy production.

However, conventional methods for constructing MES components often lack design flexibility, limiting performance optimization. To overcome these limitations and enhance MES efficiency, innovative fabrication techniques are needed—ones that allow precise control over reactor structures and functions.

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Biomedical engineers at the University of Melbourne have developed a 3D bioprinting system capable of creating structures that closely replicate various human tissues, ranging from soft brain tissue to more rigid materials like cartilage and bone.

This innovative technology provides cancer researchers with a powerful tool for replicating specific organs and tissues, enhancing their ability to predict drug responses and develop new treatments. By offering a more accurate and ethical approach to drug discovery, it also has the potential to reduce reliance on animal testing.

Head of the Collins BioMicrosystems Laboratory at the University of Melbourne, Associate Professor David Collins said: In addition to drastically improving print speed, our approach enables a degree of cell positioning within printed tissues. Incorrect cell positioning is a big reason most 3D bioprinters fail to produce structures that accurately represent human tissue.

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A workshop led by scientists at the Department of Energy’s Oak Ridge National Laboratory sketched a road map toward a longtime goal: development of autonomous, or self-driving, next-generation research laboratories.

Download the report of the “Shaping the Future of Self-Driving Autonomous Laboratories” workshop.

Scientists have dreamed for generations of high-tech laboratories operated via robotics at the push of a button. Recent advancements in artificial intelligence bring those dreams closer to reality than ever before, said Rafael Ferreira da Silva, an ORNL senior research scientist and lead author of the workshop’s report.

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Growing organs in the Lab — Find out how scientists are making human organs in the lab from stem cells. While we can’t grow fully functional human organs yet, they can grow organoids from stem cells to study organ development and 3D bioprint tissues that can one day be used to repair organs.

🌏 https://www.clevalab.com.

👉 You may also like: The Basic Principles of a Cell, https://youtu.be/R5z0VYBnZPs.

📖 This video is also a blog post with images and a PDF Summary visit: https://www.clevalab.com/post/growingorgans.

Continue reading “Growing Organs” | >

The development of biomaterials for artificial organs and tissues is an active area of research due to increases in accidental injuries and chronic diseases, along with the entry into a super-aged society. 3D bioprinting technology, which uses cells and biomaterials to create three-dimensional artificial tissue structures, has recently gained popularity. However, commonly used hydrogel-based bioinks can cause cytotoxicity due to the chemical crosslinking agent and ultraviolet light that connect the molecular structure of photocuring 3D-printed bioink.

Dr. Song Soo-chang’s research team at the Center for Biomaterials, Korea Institute of Science and Technology (KIST), revealed the first development of poly(organophosphazene) hydrogel-based temperature-sensitive that stably maintained its physical structure by temperature control only without photocuring, induced tissue regeneration, and then biodegraded in the body after a certain period of time.

Current hydrogel-based bioinks must go through a photocuring process to enhance the mechanical properties of the 3D scaffold after printing, with a high risk of adverse effects in the human body. In addition, there has been a possibility of side effects when transplanting externally cultured cells within bioink to increase the tissue regeneration effect.

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Biopunk androids replicants.

What happens when humans begin combining biology with technology, harnessing the power to recode life itself.

What does the future of biotechnology and genetic engineering look like? How will humans program biology to create organ farm technology and bio-robots. And what happens when companies begin investing in advanced bio-printing, artificial wombs, and cybernetic prosthetic limbs.

Continue reading “BIOTECHNOLOGY in the Future: 2050 (Artificial Biology)” | >

Biological replacement and cryopreservation to significantly extend human lifespans — eli mohamad & kai micah mills — hydradao and cryodao.

Eli Mohamad is a prominent figure in the biotech, space, and AI industries who has co-founded several successful startups and has a real passion for groundbreaking ventures that focus on the development of futuristic technologies.

Currently as a Core Team Member at CryoDAO (https://www.cryodao.org/), a decentralized organization focused on sourcing and funding research in cryopreservation, Eli continues to work at the forefront of innovative technologies and applies his extensive experience in biotechnology and innovative projects to advance novel cryopreservation technologies and their various applications, from critical tissue and organ preservation, to cryo-sleep and suspended animation for space exploration.

Continue reading “Eli Mohamad & Kai Micah Mills — Advancing Frontiers Of Cryopreservation & Biological Replacement” | >

Metaverse.
https://www.youtube.com/watch?v=80IIEnSNwQc.
https://www.youtube.com/watch?v=KLOcj5qvOio.

AR Healthcare.

Space Tourism and Colonization.
https://www.youtube.com/watch?v=aMZaqn-5Yrs.

Bioprinting.

Continue reading “20 Emerging Technologies That Will Blow Your Mind” | >

This timelapse of future technology, the 3rd year of the video series, goes on a journey exploring the human mind becoming digital. Brain chips turn memories and thoughts into data; could this data be sent out into space to live in the cosmos encoded into the magnetic fields between stars.

Other topics covered in this sci-fi documentary video include: bio-printing, asteroid habitats, terraforming Mars, the future of Teslabots, lucid dreaming, and the future of artificial intelligence and brain to computer interfaces (BCI — brain chips).

PATREON
The first and second volumes of ‘The Encyclopedia of the Future’ are now available on my Patreon.

Visit my Patreon here: / venturecity.

Continue reading “TIMELAPSE OF FUTURE TECHNOLOGY 3 (Sci-Fi Documentary)” | >