Archive for the ‘bioprinting’ category: Page 10
Jan 14, 2019
Bio-Printers Are Churning out Living Fixes to Broken Spines
Posted by Klaus Baldauf in categories: 3D printing, bioprinting
A new study shows that 3D-printing a section of spinal cord, living cells and all, restored movement in injured rats.
Dec 16, 2018
United Therapeutics to Develop CollPlant Technologies for 3D Bioprinted Lung Transplants
Posted by Klaus Baldauf in categories: 3D printing, bioprinting, biotech/medical
United Therapeutics will license, develop, and commercialize CollPlant Holdings’ recombinant human collagen (rhCollagen) and BioInk technology for 3D bioprinting of solid-organ scaffolds for human transplants, the companies said today, through a collaboration that could generate more than $44 million.
Through its wholly- owned organ manufacturing and transplantation-focused subsidiary Lung Biotechnology PBC, United Therapeutics has been granted what the companies termed an exclusive license “throughout the universe” by CollPlant to its technology for producing and using rhCollagen-based BioInk for 3D bioprinted lung transplants.
Lung Biotechnology PBC is a public benefit corporation formed to address the acute national shortage of transplantable lungs and other organs with a variety of technologies that either delay the need for such organs or expand the supply.
Dec 11, 2018
Organs grown in space: Russian scientists 3D-print mouse’s thyroid on ISS in world first
Posted by Klaus Baldauf in categories: 3D printing, bioprinting, biotech/medical, space
Medical research has taken a leap into the future as Russian scientists have managed to grow a mouse’s thyroid in zero gravity using a 3D bioprinter on the International Space Station (ISS). And human organs may be next in line.
The breakthrough device dubbed Organaut was delivered to the ISS by a Soyuz MS-11 spacecraft on December 3 by Expedition 58.
Nov 28, 2018
3D.fab’s BioAssemblyBot Wants to 3D Print Skin onto People
Posted by Klaus Baldauf in categories: 3D printing, bioprinting, biotech/medical, robotics/AI
3D bioprinting continues to diversify as more and more companies and research organizations join the field, each bringing their own take on the technology to the table. French collaborative platform 3D.fab has an intriguing approach towards bioprinting that involves a freeform robot capable of directly printing on a part of the body. In the video below, the BioAssemblyBot prints what appears to be a bandage directly on an arm:
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Nov 14, 2018
Bio-tech firm develops 3D printed replacement cornea for human eyes
Posted by Klaus Baldauf in categories: 3D printing, bioprinting, biotech/medical, business, life extension
After successfully transplanting the first 3D-printed cornea in an animal, North Carolina company Precise Bio has recently announced the launch of a dedicated business for creating marketable, 3D-printed products for human eyes. Founded by scientists from the Wake Forest Institute of Regenerative Medicine, this company is developing bio-fabrication printers that can restore cells, tissues, and organs. Their proprietary technology, a 4D bio-printing platform, is said to resolve existing limitations presented by other bioprinters to enable more complex tissues to be engineered for transplants and treatments. By focusing on developing marketable products for the eye, the company aims to achieve rapid advancement in its field and move to overhaul the whole organ transplant system.
When a cornea is damaged by disease or injury, a replacement is often needed to restore vision. Transplant surgery using donated corneas is an available solution, however, it relies on a deceased donor. While the waiting list in the United States is nearly non-existent, other countries require longer wait times, some over a year, before one is available. The Eye Bank Association of America estimates that around 10 million people suffer from corneal blindness that could potentially be restored via transplant surgery. An artificially manufactured cornea would overcome supply limitations while also contributing to the knowledge base to develop more complex organs such as hearts and livers.
Nov 2, 2018
Celprogen 3D bioprints brain organelle for neurological disease research
Posted by Klaus Baldauf in categories: 3D printing, bioprinting, biotech/medical, neuroscience
Stem cell research firm Celprogen Inc. has been working on something quite exciting for some time now, which has remained largely under the radar until very recently. The California-based company announced it has successfully 3D printed a human brain organelle using brain stem cells. The bioprinted brain could have applications in studying neurological diseases.
More than just announcing the bioprinted brain organelle, Celprogen has also used the brain to study the “role of Microglia activation and deactivation in neurological diseases.” Through this research and experimentation, the company says it has identified and characterized 11 lead compounds that could be potential drug candidates for diseases such as Alzheimer’s, Parkinson’s and Glioblastoma.
Aug 29, 2018
Second Coming 2.0: Church Taxes Will Help Resurrect Jesus with 3D Bioprinting
Posted by Zoltan Istvan in categories: 3D printing, bioprinting, computing, life extension, quantum physics, transhumanism
My new article just out: The transhuman future of Quantum Archaeology & living forever is complicated, but it could still be funded by Christians if they rallied around resurrecting Jesus with 3D Bioprinting and Super Computers:
Aug 13, 2018
3D printed biomaterials for bone tissue engineering
Posted by Saúl Morales Rodriguéz in categories: 3D printing, bioengineering, bioprinting, biotech/medical, life extension
When skeletal defects are unable to heal on their own, bone tissue engineering (BTE), a developing field in orthopedics can combine materials science, tissue engineering and regenerative medicine to facilitate bone repair. Materials scientists aim to engineer an ideal biomaterial that can mimic natural bone with cost-effective manufacturing techniques to provide a framework that offers support and biodegrades as new bone forms. Since applications in BTE to restore large bone defects are yet to cross over from the laboratory bench to clinical practice, the field is active with burgeoning research efforts and pioneering technology.
Cost-effective three-dimensional (3D) printing (additive manufacturing) combines economical techniques to create scaffolds with bioinks. Bioengineers at the Pennsylvania State University recently developed a composite ink made of three materials to 3D print porous, bone-like constructs. The core materials, polycaprolactone (PCL) and poly (D, L-lactic-co-glycolide) acid (PLGA), are two of the most commonly used synthetic, biocompatible biomaterials in BTE. Now published in the Journal of Materials Research, the materials showed biologically favorable interactions in the laboratory, followed by positive outcomes of bone regeneration in an animal model in vivo.
Since bone is a complex structure, Moncal et al. developed a bioink made of biocompatible PCL, PLGA and hydroxyapatite (HAps) particles, combining the properties of bone-like mechanical strength, biodegradation and guided reparative growth (osteoconduction) for assisted natural bone repair. They then engineered a new custom-designed mechanical extrusion system, which was mounted on the Multi-Arm Bioprinter (MABP), previously developed by the same group, to manufacture the 3D constructs.
Jul 30, 2018
Allevi, Made in Space team up to develop first 3D bioprinter in space
Posted by Klaus Baldauf in categories: 3D printing, bioprinting, education, space
3D bioprinting company Allevi has teamed up with California-based 3D printing and space technology firm Made In Space to develop the Allevi ZeroG – the first 3D bioprinter capable of working in low-gravity conditions.
Allevi (formerly BioBots) was founded in 2014 by University of Pennsylvania graduates Ricardo Solorzano and Daniel Cabrera. At the time, the ambitious duo set out to develop an accessible desktop bioprinting system which could be used for a wide variety of research and educational applications.
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