Tech News
Back to home
Technology

2.5D Mouse Muscle Tissue Made on Vomit Comet

Source

3DPrint.com

Published

TL;DR

AI Generated

The article discusses the creation of 2.5D mouse muscle tissue on a parabolic flight, also known as the "vomit comet," which provides brief periods of microgravity. Scientists were able to develop functional muscle tissue that could be used for research and drug testing purposes. This achievement opens up new possibilities for studying muscle development and diseases in space. The unique environment of the vomit comet allowed researchers to simulate the conditions of space and observe how muscle tissue behaves in microgravity.

Read Full Article

Similar Articles

3DPrint.com

TV’s Scarpetta Suggests We Can 3D Print Full Human Organs. Reality Is… Not Yet

The article discusses the claim made by TV show "Scarpetta" that full human organs can be 3D printed, but in reality, this technology is not yet feasible. The piece delves into the challenges and limitations of 3D printing organs, highlighting the complexity of recreating intricate biological structures. It emphasizes that while significant progress has been made in bio-printing, creating functional human organs remains a complex and ongoing area of research. The article underscores the need for continued advancements in technology and medical research to make the 3D printing of organs a reality in the future.

3DPrint.com
3DPrint.com

3D Printing News Briefs, February 21, 2026: Vapor Smoothing, Brain Models, & More

The article discusses various 3D printing news briefs from February 21, 2026, including advancements in vapor smoothing techniques, the creation of brain models using 3D printing technology, and other notable developments in the industry.

3DPrint.com
3DPrint.com

SpaceX’s First Twilight Rideshare Carries 3D Printing Experiment Into Orbit

SpaceX successfully launched its first twilight rideshare mission, carrying a 3D printing experiment into orbit. The payload included a 3D printer from the company Redwire, aimed at testing the production of ceramic turbine blades in microgravity. This mission marked the 26th launch for SpaceX in 2021, showcasing their continued commitment to advancing space technology. The Falcon 9 rocket also deployed 49 other satellites for various customers as part of the rideshare mission. The successful deployment of these payloads highlights the growing trend of utilizing space for a wide range of experiments and applications.

3DPrint.com
UK company shoots a 1000-degree furnace into space to study off-world chip manufacturing — semiconductors made in space could be 'up to 4,000 times purer' than Earthly equivalents

UK company shoots a 1000-degree furnace into space to study off-world chip manufacturing — semiconductors made in space could be 'up to 4,000 times purer' than Earthly equivalents

A UK company, Space Forge, has successfully activated a 1000-degree furnace in space as part of its project to explore off-world chip manufacturing. The company aims to produce semiconductors in space, which could be significantly purer than those made on Earth due to microgravity conditions and reduced atmospheric contaminants. Space Forge's CEO mentioned that these space-manufactured semiconductors could be up to 4,000 times purer than current Earth-made ones, potentially leading to more efficient electronic devices like 5G towers and EV chargers. While the project faces complexities, such as transporting finished products back to Earth, other companies like Besxar are also exploring orbital fabs to reduce resource consumption and improve wafer purity.

Tom's Hardware

We use cookies

We use cookies to ensure you get the best experience on our website. For more information on how we use cookies, please see our cookie policy.