Explore the most recent editions of MPO Magazine, featuring expert commentary, industry trends, and breakthrough technologies.
Access the full digital version of MPO Magazine anytime, anywhere, with interactive content and enhanced features.
Join our community of medical device professionals. Subscribe to MPO Magazine for the latest news and updates delivered straight to your mailbox.
Explore the transformative impact of additive manufacturing on medical devices, including design flexibility and materials.
Learn about outsourcing options in the medical device sector, focusing on quality, compliance, and operational excellence.
Stay updated on the latest electronic components and technologies driving innovation in medical devices.
Discover precision machining and laser processing solutions that enhance the quality and performance of medical devices.
Explore the latest materials and their applications in medical devices, focusing on performance, biocompatibility, and regulatory compliance.
Learn about advanced molding techniques for producing high-quality, complex medical device components.
Stay informed on best practices for packaging and sterilization methods that ensure product safety and compliance.
Explore the latest trends in research and development, as well as design innovations that drive the medical device industry forward.
Discover the role of software and IT solutions in enhancing the design, functionality, and security of medical devices.
Learn about the essential testing methods and standards that ensure the safety and effectiveness of medical devices.
Stay updated on innovations in tubing and extrusion processes for medical applications, focusing on precision and reliability.
Stay ahead with real-time updates on critical news affecting the medical device industry.
Access unique content and insights not available in the print edition of the MPO Magazine.
Explore feature articles that delve into specific topics within the medical device industry, providing in-depth analysis and insights.
Gain perspective from industry experts through regular columns addressing key challenges and innovations in medical devices.
Read the editor’s thoughts on the current state of the medical device industry.
Discover the leading companies in the medical device sector, showcasing their innovations and contributions to the industry.
Explore detailed profiles of medical device contract manufacturing and service provider companies, highlighting their capabilities and offerings.
Learn about the capabilities of medical device contract manufacturing and service provider companies, showcasing their expertise and resources.
Watch informative videos featuring industry leaders discussing trends, technologies, and insights in medical devices.
Short, engaging videos providing quick insights and updates on key topics within the medical device industry.
Tune in to discussions with industry experts sharing their insights on trends, challenges, and innovations in the medical device sector.
Participate in informative webinars led by industry experts, covering various topics relevant to the medical device sector.
Stay informed on the latest press releases and announcements from leading companies in the medical device manufacturing industry.
Access comprehensive eBooks covering a range of topics on medical device manufacturing, design, and innovation.
Highlighting the innovators and entrepreneurs who are shaping the future of medical technology.
Explore sponsored articles and insights from leading companies in the medical device manufacturing sector.
Read in-depth whitepapers that explore key issues, trends, and research findings for the medical device industry.
Discover major industry events, trade shows, and conferences focused on medical devices and technology.
Get real-time updates and insights live from the CompaMed/Medica conference floor.
Join discussions and networking opportunities at the MPO Medtech Forum, focusing on the latest trends and challenges in the industry.
Attend the MPO Summit for insights and strategies from industry leaders shaping the future of medical devices.
Participate in the ODT Forum, focusing on orthopedic device trends and innovations.
Discover advertising opportunities with MPO to reach a targeted audience of medical device professionals.
Review our editorial guidelines for submissions and contributions to MPO.
Read about our commitment to protecting your privacy and personal information.
Familiarize yourself with the terms and conditions governing the use of MPOmag.com.
What are you searching for?
A microfluidic cell culture chip could help researchers and clinicians to investigate the impact of radiotherapy on the body's tissues.
The debilitating side effects of radiotherapy could soon be a thing of the past thanks to a breakthrough by University of South Australia (UniSA) and Harvard University researchers. UniSA biomedical engineer Professor Benjamin Thierry is leading an international study using organ-on-a-chip technology to develop 3D models to test the effects of different levels and types of radiation. A microfluidic cell culture chip closely mimics the structure and function of small blood vessels within a disposable device the size of a glass slide, allowing researchers and clinicians to investigate the impact of radiotherapy on the body’s tissues. To date, scientists have relied on testing radiotherapy on cells in a two-dimensional environment on a slide. Professor Thierry, from UniSA’s Future Industries Institute (FII) and the ARC Centre of Excellence in Convergent Bio-Nano Science and Technology (CBNS), says the organ-on-a-chip technology could reduce the need for animal studies and irrelevant in vitro work, both of which have major limitations. “An important finding of the study is that endothelial cells grown in the standard 2D culture are significantly more radiosensitive than cells in the 3D vascular network. This is significant because we need to balance the effect of radiation on tumor tissues while preserving healthy ones,” Prof Thierry said. The findings, published in Advanced Materials Technologies, will allow researchers to fully investigate how radiation impacts on blood vessels and—soon—all other sensitive organs. “The human microvasculature (blood vessel systems within organs) is particularly sensitive to radiotherapy and the model used in this study could potentially lead to more effective therapies with fewer side effects for cancer patients,” Prof Thierry said. More than half of all cancer patients receive radiotherapy at least once in the course of their treatment. While it cures many cancers, the side effects can be brutal and sometimes lead to acute organ failure and long-term cardiovascular disease. Prof Thierry’s team, including UniSA FII colleague Dr. Chih-Tsung Yang and Ph.D. student Zhaobin Guo, are working in close collaboration with the Royal Adelaide Hospital and Harvard University’s Dana-Farber Cancer Institute with the support of the Australian National Fabrication Facility. “Better understanding the effect of radiotherapy on blood vessels within organs—and more generally on healthy tissues—is important, especially where extremely high doses and types of radiation are used,” Dr. Yang said. The researchers’ next step is to develop body-on-chip models that mimic the key organs relevant to a specific cancer type.
Enter your account email.
A verification code was sent to your email, Enter the 6-digit code sent to your mail.
Didn't get the code? Check your spam folder or resend code
Set a new password for signing in and accessing your data.
Your Password has been Updated !
