While regulations are in place to help minimize EMI, some amounts are unavoidable, and larger amounts can be generated in rare circumstances, or in the event of device malfunction. Thus, preventative measures, including EMI shielding and filtering, must be employed to protect both implantable medical devices and their host patients.
Medical device prototypes at each development stage have a utility that needs to be understood to justify the cost and time invested to develop them.
The United Kingdom’s plan to leave the European Union has devolved into a mess of shifting deadlines and what-ifs. Here, Zaid Al-Nassir breakdown for medtech leaders has been updated to include events taking place through April 11, 2019.
In October, the U.S. FDA published an updated draft of Premarket Cybersecurity Guidance and introduced the concept of a cybersecurity bill of materials (CBOM) for medical devices. Some medical device manufacturers have since raised concerns regarding mandating CBOMs in the 510(k) or premarket approval packet.
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.
Specialty Coating Systems (SCS) offers a variety medical coatings and technologies to support a range of medical device applications, including elastomeric seals, forming mandrels, pacemaker components, and stents. The biocompatible, biostable SCS Parylene coatings provide excellent moisture, and chemical dielectric barrier protection. These coatings also feature a low coefficient of friction for applications where lubricity is important.
Whether you need a few pieces or a few thousand, Donatelle's highly specialized team can produce parts with near-production tolerances in as little as a few days. As part of their integrated services, they work closely with your design team to select the best polymers and metals to bring accuracy and consistency to your molded components. You can also rely on their expertise with hundreds of exotic materials, including high-temperature, implantable-grade and silicone.
B. Braun provides an array of parenteral pharmaceutical solutions, including those for use in standard IV, irrigation, nutrition, and anti-infective therapy applications. The EXCEL® and PAB® containers and the DUPLEX Drug Delivery Systems feature biologically inert, PVC-Free and DEHP-Free, non-toxic plastic construction for a safe and accurate method of administering IV medication.
Flexan is committed to providing the highest quality of silicone components for medical devices. Using the highest process controls alongside the most rigorous quality tools, Flexan is able to ensure patient safety and 100 percent inspection of every single component before it ships.
The margin for error when it comes to critical components for medical device manufacturing is zero. That's why Accumold ensures robust production processes, extremely tight requirements, and part-to-part consistency.
PCO introduces the new pco.dicam C1 and as the first intensified camera systems to exploit the full performance inherent to scientific CMOS sensor technology. The camera features optical coupling of 25 mm high resolution image intensifiers, an excellent high efficiency tandem lens system, and a 16 bit 4 MPix sCMOS sensor.
Proto Labs, Inc., through its Firstcut and Protomold services, utilizes proprietary computing technologies and automated manufacturing systems to provide prototype parts and short-run production services. All parts are made by standard production methods, delivered at affordable prices, and can be delivered in as fast as one day.
Packaging Technologies & Inspection (PTI) is a leading manufacturer of inspection technologies for the pharmaceutical industry that are non-destructive, non-invasive and require no sample preparation.
