Researchers at Carnegie Mellon University have developed a low-cost 3D bioprinter by modifying a standard desktop 3-D printer, and they have released the breakthrough designs as open source so that anyone can build their own system. The researchers—Materials Science and Engineering (MSE) and Biomedical Engineering (BME) Associate Professor Adam Feinberg, BME postdoctoral fellow TJ Hinton, and Kira Pusch, a recent graduate of the MSE undergraduate program—recently published a paper in the journal HardwareX that contains complete instructions for printing and installing the syringe-based, large volume extruder (LVE) to modify any typical, commercial plastic printer.
“What we’ve created,” says Pusch, “is a large volume syringe pump extruder that works with almost any open source fused deposition modeling (FDM) printer. This means that it’s an inexpensive and relatively easy adaptation for people who use 3-D printers.” Continue reading “Carnegie Mellon University researchers develop low-cost open-source 3D bioprinter (Video)”
3D printing is seeing increasingly widespread adoption in the medical field, with numerous examples of applications that help surgeons accurately plan cosmetic surgery. Now, the potential of 3D printing is being examined by hospitals treating patients who are fighting for their life.
The ETZ (Elisabeth-TweeSteden Ziekenhuis) is one of the eleven trauma centers in the Netherlands. As the only center in the country with trauma surgeons on location 24 hours a day, it serves as the main location for emergency patients in North Brabant. 3D printing has already been used to visualize bone fractures, but pioneering researchers believe it can also be used to help treat trauma patients.
Mike Bemelman, MD, trauma surgeon at the ETZ, had already seen the potential of 3D printing back in 2016. Together with Lars Brouwers, MD, PhD-candidate, and Koen Lansink, MD, trauma surgeon, they have started conducting research into the benefits and effectiveness of 3D printing, compared to traditional and other new technologies. Their idea is to 3D print scanned bone fractures in order to give both surgeons and patients a clear understanding of each situation, before operating. Continue reading “Research on the benefits of 3D printing in Dutch trauma hospital (Video)”
AMBER, the Science Foundation Ireland-funded materials science institute headquartered at Trinity, today announced a new strategic collaboration with Johnson & Johnson Services, Inc. to establish a collaborative laboratory focused on 3D bioprinting.
Research projects will focus initially in orthopaedics and, in the long-term, offer its internal scientific experts as adjunct professors and engage in staff exchanges. The new Global Centre of Excellence for 3D bioprinting will transform healthcare delivery for patients and consumers. It is due to be operational by the end of 2018.
The announcement was welcomed by Minister for Business, Enterprise and Innovation, Heather Humphreys TD, who said: “Because of the fantastic success of the SFI Research Centre, AMBER, Ireland has a worldwide reputation for excellence in 3D bioprinting and is a global leader in materials science. I am delighted to welcome this new collaboration and look forward to its success moving forward.” Continue reading “Johnson & Johnson to open 3D bioprinting lab at Trinity College Dublin”
Wearable tech is the name given to smart electronic devices that can be worn or implanted in the body. An enticing opportunity for innovative tech developers in sports, health, fashion and entertainment, 3D printing is revealing new possibilities for wearable tech such as electronic second skins, and smart fabrics.
In the latest research from Massachusetts Institute of Technology (MIT), a team has developed a “living” 3D printer bio-ink that’s not only smart but could change the way we think about technology altogether. Harnessing natural reactions of bacteria, responsive devices made using this smart ink represent the basic build blocks of electricity-free wearable tech.
Made by members of the same team that made the soft-robotic, fish-catching glove, this 3D printable bio-ink adds to an extensive portfolio of smart materials in development at MIT. Continue reading “3D printing and programming genetically engineered bacteria”
Opportunities for innovations in Healthcare – PatentPitch by PatentMatch
The purpose of this PatentPitch is to select two valuable concepts in the area of Healthcare with the purpose of a substantial investment in a start-up. Continue reading “Opportunities for innovations in Healthcare – PatentPitch by PatentMatch”
Multimaterial and Multiscale Biofabrication of 3D in vitro models of complex tissues – Presented by Carmelo De Maria, University of Pisa, at 3D Medical Printing Conference, which will take place on 30-31 January 2018 at MECC Maastricht, The Netherlands.
The presentation will describe the recent advances in bioprinting technologies to engineer 3D in vitro tissues and organs by controlling spatial heterogeneity of chemical and physical properties of scaffolds and, at the same time, the cellular composition and spatial arrangement. Continue reading “Multimaterial and Multiscale Biofabrication of 3D in vitro models of complex tissues – Presented by Carmelo De Maria, University of Pisa”
Nils Broeckx, Dewallens & Partners, will speak at the 3D Medical Printing Conference, which will take place on 30-31 January 2018 at MECC Maastricht, The Netherlands.
About Nils Broeckx
Nils Broeckx studied law at the UAntwerpen (University of Antwerp) (2010 magna cum laude). In 2016 he obtained a doctoral degree at the UAntwerpen with a thesis headed “Orgaantransplantatie. Een juridische analyse”(Organ transplantation. A legal analysis) at the same university. This doctoral thesis was awarded the biennial Scientific Prize for Health Law André Prims.
Since 2016 Nils has joined Dewallens & partners law firm. Nils has a broad interest in health law and has expertise in the legal framework of bodily material and medical devices, in data protection and in medical liability.
Since June 2016 Nils is a member of the ethics committee of AZ Klina in Brasschaat. Since October 2017 Nils is visiting professor at the Antwerp Liability Law and Insurance Chair (UAntwerpen). Continue reading “Nils Broeckx, Dewallens & Partners, will speak at the 3D Medical Printing Conference”
Application of 3D Printing Technology in Dosage Form Design and Drug Delivery – Presented by Xiaoling Li, Triastek, at the 3D Medical Printing Conference, which will take place on 30-31 January 2018 at MECC Maastricht, The Netherlands. Read the interview
Drug delivery systems with sophisticated architectures can be created with 3D printing technology. Triastek, Inc. designed and built the fused deposition modeling (FDM) 3D printers with multiple printer heads to create the complex pharmaceutical dosage forms. The unique architecture of tablet dosage form is created with one or more compartments. These compartments serve different functions, such as, reservoir and density modulation. The 3D printed tablets can modulate the release of active ingredients at a predetermined time, mode, and rate to achieve desired therapeutic outcomes. Mixing and/or matching the release characteristics provide a unique solution to various unmet clinical needs and therapeutic regimens. Continue reading “Application of 3D Printing Technology in Dosage Form Design and Drug Delivery – Presented by Xiaoling Li, Triastek”
Active smart wearable orthotics for therapy (ARTHE) – Presented by Stijn Bukenbergs, Thomas More, at the 3D Medical Conference 2018, which will take place on 30-31 January 2018 at MECC Maastricht, The Netherlands. Read the interview
The ARTHE, a 3D printed motorized prototype of an assistive elbow brace, is developed as an aid for rehabilitation of muscle deficiencies in the upper limb (e.g. after CVA). The ARTHE assists the patient by measuring the voluntary movement and restores this to the full range of motion (ROM). The movement of the affected limb will be activated by triggering the force sensitive resistors or the electromyography (EMG) sensors. The functionality and usability of the ARTHE was successfully tested on 10 healthy subjects and 3 CVA patients(MAS score under 2, medical research council score between 1 to 5). Continue reading “Active smart wearable orthotics for therapy (ARTHE) – Presented by Stijn Bukenbergs, Thomas More”
3D Medical Printing Conference welcomes SciDoc Publishers as Media Partner. The event will take place on 30-31 January 2018 at MECC Maastricht, The Netherlands.
SciDoc Publishers is a major source provider of e-journals in the field of Science, Technology and Medicine (STM). The nature of journals – Open Access and Peer-reviewed. We are aimed with a sole motive in making a mark in the field of Open Access, by propagating the knowledge to the scientific community. Our prime concern involves, the knowledge to reach millions of readers and give them access to scientific publications – online.
For more details regarding SciDoc Publishers: www.scidoc.org
Continue reading “3D Medical Printing Conference welcomes SciDoc Publishers as Media Partner”