EnvisionTEC
The 3D-Bioplotter®
The 3D-Bioplotter® System is a versatile rapid prototyping tool for processing a great variety of biomaterials for computer-aided tissue engineering (CATE), from 3D CAD models and patient CT data to the physical 3D scaffold with a designed and defined outer form and an open inner structure. The 3D-Bioplotter® has the capacity of fabricating scaffolds using the widest range of materials of any singular rapid prototyping machine, from soft hydrogels over polymer melts up to hard ceramics and metals. Complex inner patterns can easily be designed using the 3D-Bioplotter® software to control the mechanical properties, increase cell adhesion, as well as improve the flow of nutrient media throughout the interconnecting pores of the printed implants.
3D-Bioplotter®
envisiontec.com/3d-printers/3d-bioplotter/
About Center for Biomaterials at Rutgers, The State University of New Jersey
Center for Biomaterials is a Multidisciplinary Center of Excellence for Tissue Engineering, Regenerative Medicine, Drug Delivery, Medical Devices, and Workforce Development based at Rutgers, The State University of New Jersey - that spans academia, industry and government.
As biomaterials scientists, our goal is to conduct state-of-the-art research in biomaterials science and engineering and to improve health care and the quality of life by developing advanced biomedical products for tissue repair and replacement, and the delivery of pharmaceutical agents. Our advanced research projects with licensing or partnering opportunities are in bone, nerve, drug delivery and X-ray visible medical implants. Our technologies have been translated into pre-clinical and clinical products, including a fully resorbable and x-ray visible coronary stent, an antimicrobial implant for the prevention of pacemaker infections, a surgical mesh for hernia repair, a bone regeneration scaffold and an ocular drug delivery system for the treatment of inflammatory eye disorders.
We have collaborations using additive manufacturing (3D printing), polymer processing, and scale-up of polymer synthesis. Our major facilities include certified class 10,000 (EN/ISO-14644 Class 7 US federal Standard 209) cleanroom. We have a large network of 60+ Industry collaborators and 30+ National and International Institutions. NJCBM also provides educational and workforce training for scientists and students in biomaterials and regenerative medicine and hosts Annual Symposia on "Biomaterials Science."
About Rutgers, The State University of New Jersey
Rutgers, The State University of New Jersey, is a leading national research university and the state of New Jersey's preeminent, comprehensive public institution of higher education. Established in 1766, the university is the eighth oldest higher education institution in the United States. Nearly 69,000 students and 22,000 full- and part-time faculty and staff learn, work, and serve the public at Rutgers locations across New Jersey and around the world. The university belongs to the Big Ten Academic Alliance, comprised of 14 world-class research universities, and is among the top 20 public U.S. universities for total R&D funding. Rutgers University-New Brunswick is the state's only public institution in the prestigious Association of American Universities.
As the premier public research university in the state, Rutgers is dedicated to teaching that meets the highest standards of excellence, to conducting cutting-edge research that breaks new ground and aids the state's economy, businesses, and industries, and to providing services, solutions, and clinical care that help individuals and the local, national, and global communities where they live. ored.rutgers.edu
The 3D-Bioplotter®
The 3D-Bioplotter® System is a versatile rapid prototyping tool for processing a great variety of biomaterials for computer-aided tissue engineering (CATE), from 3D CAD models and patient CT data to the physical 3D scaffold with a designed and defined outer form and an open inner structure. The 3D-Bioplotter® has the capacity of fabricating scaffolds using the widest range of materials of any singular rapid prototyping machine, from soft hydrogels over polymer melts up to hard ceramics and metals. Complex inner patterns can easily be designed using the 3D-Bioplotter® software to control the mechanical properties, increase cell adhesion, as well as improve the flow of nutrient media throughout the interconnecting pores of the printed implants.
3D-Bioplotter®
envisiontec.com/3d-printers/3d-bioplotter/
About Center for Biomaterials at Rutgers, The State University of New Jersey
Center for Biomaterials is a Multidisciplinary Center of Excellence for Tissue Engineering, Regenerative Medicine, Drug Delivery, Medical Devices, and Workforce Development based at Rutgers, The State University of New Jersey - that spans academia, industry and government.
As biomaterials scientists, our goal is to conduct state-of-the-art research in biomaterials science and engineering and to improve health care and the quality of life by developing advanced biomedical products for tissue repair and replacement, and the delivery of pharmaceutical agents. Our advanced research projects with licensing or partnering opportunities are in bone, nerve, drug delivery and X-ray visible medical implants. Our technologies have been translated into pre-clinical and clinical products, including a fully resorbable and x-ray visible coronary stent, an antimicrobial implant for the prevention of pacemaker infections, a surgical mesh for hernia repair, a bone regeneration scaffold and an ocular drug delivery system for the treatment of inflammatory eye disorders.
We have collaborations using additive manufacturing (3D printing), polymer processing, and scale-up of polymer synthesis. Our major facilities include certified class 10,000 (EN/ISO-14644 Class 7 US federal Standard 209) cleanroom. We have a large network of 60+ Industry collaborators and 30+ National and International Institutions. NJCBM also provides educational and workforce training for scientists and students in biomaterials and regenerative medicine and hosts Annual Symposia on "Biomaterials Science."
About Rutgers, The State University of New Jersey
Rutgers, The State University of New Jersey, is a leading national research university and the state of New Jersey's preeminent, comprehensive public institution of higher education. Established in 1766, the university is the eighth oldest higher education institution in the United States. Nearly 69,000 students and 22,000 full- and part-time faculty and staff learn, work, and serve the public at Rutgers locations across New Jersey and around the world. The university belongs to the Big Ten Academic Alliance, comprised of 14 world-class research universities, and is among the top 20 public U.S. universities for total R&D funding. Rutgers University-New Brunswick is the state's only public institution in the prestigious Association of American Universities.
As the premier public research university in the state, Rutgers is dedicated to teaching that meets the highest standards of excellence, to conducting cutting-edge research that breaks new ground and aids the state's economy, businesses, and industries, and to providing services, solutions, and clinical care that help individuals and the local, national, and global communities where they live. ored.rutgers.edu