Tagged with " Bioprinter"

University-developed 3D tissue bioprinting technology now commercially available

Swansea University life science technology spin out company 3Dynamic Systems Ltd (3DS) has announced the availability of its two 3D bioprinting machines – the Alpha and Omega bioprinters.

These two new machines are capable of depositing a range of biologically active and biologically compatible materials, with applications for life sciences research, regenerative medicine, bone tissue engineering, and pharmaceutical development.

3DS, which is based at the University, was founded by Dr Daniel J Thomas (pictured), Senior Research Officer in the College of Engineering’s Welsh Centre for Printing and Coating (WCPC).
(…weiter auf swansea.ac.uk)

Dr. Koch von der Bio-Fabrication-Group über Organe aus dem 3D-Drucker (Radio Corax)

Trinkbecher, Spielzeug, Lampenschirme, Schuhe, Zahnersatz, ja sogar Kekse und Chips – fast alles lässt sich mittlerweile mit der 3D-Drucktechnik herstellen. Mit diesem Verfahren will man aber eines Tages sogar komplett künstliche Organe aus Stamm- oder Gewebezellen produzieren. Radio Corax hat mit Dr. Lothar Koch gesprochen, dem Leiter der Bio-Fabrication-Group im Lazerzentrum Hannover, der uns mehr über die neue Technik und ihre Möglichkeiten erzählen kann.
(…weiter auf rdl.de)

3Dynamic Systems Working on 3D-Bioprinting Human Bone, Skin & Muscle on Demand

Bioprinting certainly will play a major role in the future of medicine. Implantation of 3D printed bones, soft tissue, and eventually entire organs look to be on the horizon. With several companies working on the technology, and the science behind 3D bioprinting making huge strides in recent years, the entire medical field may be in for major disruptions.
(…weiter auf 3dprint.com)

Bioprinting – Die künftige Vorratskammer für Spenderorgane

Mit 3D-Biodruckern wollen Wissenschaftler in naher Zukunft Organe im Labor herstellen, es wäre eine schier unerschöpfliche Vorratskammer für Spenderorgane. Noch ist es nicht so weit. Mit den Eigenschaften der sogenannten biologischen Tinte, die beim Druck von menschlichem Gewebe zum Einsatz kommt, beschäftigt sich ein US-amerikanisches Forscherteam an der Medical University of South Carolina gemeinsam mit chinesischen Kollegen von der Zhejiang Universität.
(…weiter auf de.euronews.com)

TeVido BioDevices develops 3D bioprinted skin grafts for breast reconstruction

New advancements in 3D printing could already improve and save lives with reproducing human cells in laboratories. While companies like Organovo and Wake Forest Institute for Regenerative Medicine are on the path to use the technology to create blood vessels, skin tissue or human organs, another company, TeVido BioDevices is working on 3D printing skin grafts for patients.
(…weiter auf 3ders.org)

PrintAlive Bioprinter

Proprietary 3D bioprinting technology allowing human microtissue arrays to be routinely defined with unprecedented speed and resolution.

Many tissues in nature have unique 3-D and hierarchical architectures to organize multiple cell types and sub-structures. This spatial organization is critical to the biological function of the tissue, and is equally critical when mimicking the structure and function of human tissues in vitro. However, current commercially-available bioprinters rely on a top-down assembly approach, which drastically reduces the throughput of the printer, and limits the complexity of the 3-D structure and the resolution of individual features to the printer nozzle size and volume.
(…weiter auf jamesdysonaward.org)

PrintAlive Bioprinter

PrintAlive Bioprinter from Arianna McAllister on Vimeo.

A quick introduction into our printing technology
(Quelle: Vimeo)

Bio3D’s Incredible Bio-Printer – Can Affordably 3D Print Cells, Proteins, Antibodies, Bacteria & Plastic in One Session

Bio-Printing, a technology which has the potential to allow us to re-engineer the human body, has been making tremendous strides over the last three to four years. The possibilities that such a technology holds, to put an end to the tragic self-destruction that every human body will eventually go through, could one day change the way we deal with disease, injury, and aging.
(…weiter auf 3dprint.com)

3D bioprinting of tissues and organs

Additive manufacturing, otherwise known as three-dimensional (3D) printing, is driving major innovations in many areas, such as engineering, manufacturing, art, education and medicine. Recent advances have enabled 3D printing of biocompatible materials, cells and supporting components into complex 3D functional living tissues. 3D bioprinting is being applied to regenerative medicine to address the need for tissues and organs suitable for transplantation. Compared with non-biological printing, 3D bioprinting involves additional complexities, such as the choice of materials, cell types, growth and differentiation factors, and technical challenges related to the sensitivities of living cells and the construction of tissues. Addressing these complexities requires the integration of technologies from the fields of engineering, biomaterials science, cell biology, physics and medicine. 3D bioprinting has already been used for the generation and transplantation of several tissues, including multilayered skin, bone, vascular grafts, tracheal splints, heart tissue and cartilaginous structures. Other applications include developing high-throughput 3D-bioprinted tissue models for research, drug discovery and toxicology.
(…weiter auf nature.com)

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