3D printing has the potential to transform the medical device industry, and now BIOMEDevice San Jose is putting that potential into the hands of those that attend this year's event.
3D printing has the potential to transform the medical device industry, and now BIOMEDevice San Jose is putting that potential into the hands of those that attend this year's event.
Since 3D printing injection molds for medical devices, Worrell slashes lead times by a game-changing 95% in comparison to traditional tooling, with costs plummeting 70%
- RobotiX Mentor™ offers the only hands-on complete procedure training simulator for robotic surgery skills
- LAP Mentor™ Cholangiography training module developed to help avoid bile duct injuries
- GI Mentor™ flexible endoscopic surgery skills training module to prepare for the SAGES (Society of American Gastrointestinal and Endoscopic Surgeons) FES hands-on test
Made to cover hollow eye sockets, flexible custom masks provide more affordable, fast- production alternative to traditional prosthetics
Organovo Holdings, Inc. (NYSE MKT: ONVO) ("Organovo"), a three-dimensional biology company focused on delivering breakthrough 3D bioprinting technology, announced today that its exVive3D™ Human Liver Model has been selected as a finalist in the Diagnostics & Research Tools category for the 2014 Most Innovative New Product Awards, sponsored by CONNECT. CONNECT, a regional program that catalyzes the creation of innovative technology and life sciences products in San Diego County, continues its twenty-seven year tradition of honoring San Diego's leaders of innovation and groundbreaking new products with the annual award.
This handheld airbrush stem cell sprayer pen is used to selectively airbrush spray OR INJECT stem cells, other cells, and other ingredients onto (or into) injured human tissues, incubating cultured living tissues, and dissolvable 3D preprinted scaffolds for growing living tissues in thin film layers. This handheld airbrush stem cell sprayer pen (or injector) can be guided by a human hand. Several cooled reservoirs feeding the sprayer / injector pen are filled with autologous cells, mesenchymal stem cells, allogenic cells, dermal fibroblasts, xeogenic cells, syngeneic or isogenic cells, primary cells, secondary cells, adult and embryonic stem cells, tissue-matrix materials, biochemical growth factors, collogen, blood, multipotent , pluripotent, and totipotent stem cells.
Using current imaging technology, get measurements of the cartilage space in the joint. Then with a 3 D printer, print the replacement cartilage our of ultrahigh molecular polyethylene (or similar wear resistant polymer). After printing the replacement cartilage, insert it in the joint and fuse to the bone with laser.
Coronary Artery Diseases (CAD) are a major cause of heart attack events which may lead to disabilities and death. Recent advances in CAD diagnosis include computed aided and physical 3D printed models. Both methods are computer coronary reconstruction dependent.
UK medical 3D printing specialist, Replica 3DM, supports NHS hospitals with surgery validation using its Stratasys Objet24 and Objet30 Pro 3D Printers
Performing surgery on 3D printed models prior to operations reduces theatre costs and aneasthetic times; improves patient recovery and provides an effective aid for both patient and surgeon
3D Bioprinting Recognized as a Transformative Technology for Global Health
Organovo Holdings, Inc. (NYSE MKT: ONVO) ("Organovo"), a three-dimensional biology company focused on delivering pioneering 3D bioprinting technology, announced today that it has been recognized as a 2015 Technology Pioneer by the World Economic Forum (WEF). Organovo is one of 24 companies honored for the ability to harness creativity to design and create transformative solutions.
Laser Photonics, the industry leader in developing high-tech fiber and CO2 laser systems for marking, cutting and engraving applications, is proud to unveil its brand new 3D Metal Sintering System (3D Metal Printing)
SOLS Systems, a pioneer of custom mass-manufacturing technology, announced today the launch of their flagship product: SOLS. The custom, corrective orthotics are one of the world's first mass applications of 3D printing. Dr. Lloyd Bowser, DPM, a leading Baltimore-area podiatrist, shares: "This is just the beginning. SOLS will be a tour de force in merging technology with our everyday lives enhancing both our present and our future for years to come."