Advances in the technology that enables production of 3D-printed medical devices continues to outpace development of the regulations, standards, and best practices intended to guide design and delivery of such devices. Learn how to insulate yourself from the resultant legal, regulatory, and business risks.
The Medical Device Single Audit Program (MDSAP) is recognized by officially approved Auditing Organizations (ISO Registrars) to conduct a single regulatory audit, of a medical device manufacturer, that satisfies relevant requirements of the regulatory authorities participating in the program.
Latin America is developing into a sizable, predictable part of the global medical device market, allowing foreign manufacturers to have sustainable commercial operations.
This article explores the adoption of intracranial stenting across three major markets (U.S., Germany, South Korea) and projects the overall market opportunity according to currently approved indications.
Advances in sensors, smartphones, communications, and analytics give developers new tools to build creative and powerful applications that promise to improve health outcomes and reduce healthcare costs.
As component sizes for medical devices shrink to micron size, conventional machining may not be the most efficient or consistent method for manufacturing. Learn why Micro-MIM is preferred for components with tight tolerances at high volumes.
Sustaining engineering enables the developer to plan ahead, getting the development and design of the device done right the first time, and smoothing the transition to manufacturing. KMC's executive director of engineering, Scott Leon, weighs in on the subject.
The business pain of switching suppliers, both in terms of costs and revalidation time, heightens the importance of making the right decision the first time.
Micromolding requires a high level of intimacy and attention to detail to be successful over the long run, so it’s important to work with micromolder with the capability, scalability, and sustainability to get a product from the design stage all the way to high-quality mass production.
PTI's expertise and experience are ideal for complex, low-volume injection molding. They are committed to delivering the same precision and price advantages of high-volume production molds. The Low-Volume Production (LVP) molding program utilizes the latest injection molding equipment, including electric injection molding machines with closed-loop processing, and automated material handling systems. PTI also is capable of customized, higher volume production runs.
Donatelle’s rapid tooling and prototyping services help accelerate the design process and bring critical medical device products to market – faster. With an experienced team of engineers, mold designers, machinists, and toolmakers, they are able to produce near-net shape parts with near production tolerances, machined or molded, in as little as a few days.
Proto Labs is proud to introduce PolyJet technology to their 3D printing capabilities. PolyJet technology is used to provide designers and engineers with the ability to manufacture elastomeric and overmolded prototypes without investing in tooling. This technology can create 3D-printed parts comprising both elastomeric and rigid materials, as well as multiple colors.
Detergent 8 is concentrated to save you money, biodegradable, and readily disposable. Its penetrating wetting power saves you time. It’s free rinsing to give you reliable results and no interfering residues.
FLIR offers the new T1030sc Long-Wave Infrared Camera designed to capture images with 1024 x 768 pixels at 30 frames per second (fps). The camera provides high thermal sensitivity, fast raw data streaming, and a high speed interface (HSI) connection for streaming lossless HD radiometric imagery at 120 Hz or up to 480 Hz with windowing.
KMC Systems offers decades of experience in solving complex medical engineering and design challenges, and in considering innovative, highly-automated solutions for the development of full-system instrumentation. KMC Systems engineers work collaboratively with customers to achieve optimal interdisciplinary solutions to laboratory automation challenges, Design for Manufacturability and Serviceability (DFM and DFS) challenges, and medical device verification and validation.
Jama software lets device product teams focus on making medical devices that drive value and improve quality of life. With Jama configured to your workflows and best practices, your team is empowered to spend less time managing compliance processes and documentation and more time creating great products.
FMI is dedicated to producing medical-grade silicone components for Class II and Class III medical devices. In fact, custom silicone moldings are the only products we manufacture and health care is the only industry we serve. That singular focus allows us to provide the highly customized components that medical device manufacturers depend upon for patient safety, efficacy and reliability.