In today’s medical device manufacturing space, OEMs are seeing partners who can handle not only the product development and prototyping of their idea, but those who have the ability to take that idea into production and manufacturing. This article looks at the value of working with a fully integrated development and manufacturing partner.
The manufacture of hearing aids has traditionally involved a time-consuming, manual process that limited the amount of production that could be achieved by a single technician. However, with the implementation of rapid prototyping technology alongside CAD/CAM solutions, this process has been sped up exponentially. This article looks at the changing trend for the production of hearing aids.
The BLDC motor is a synchronous electric motor that has coils wound around the stationary lamination stack of a stator—not a rotating armature—and magnets mounted on a rotor. This basic design has allowed engineers to create BLDC motors small enough to fit into portable ventilators used in hospitals, emergency vehicles, and homes.
While virtual imaging technology has permeated other industries such as entertainment and military, it has yet to make a significant impact in medical. However, as newer, more advanced capabilities are introduced, designers may take advantage of this offering more often. This article looks at virtual imaging for medical device applications.
This article describes the challenges and successes in which a modern, non-contact technology replaced older manual methods. Four scenarios are discussed in which this newer technology can be integrated into a company’s process: new product development, process improvements, problem resolution, and existing products.
The FDA’s UDI rule is on its way and will impact virtually everyone in the industry in one way or another. While the rule has its benefits, getting to compliance will not be achieved overnight. This article provides an overview of the direct part marking technologies required to comply with the UDI rule and offers a solution that addresses the shortcomings of several other technologies.
As more healthcare technology moves out of secured hospital areas and into much more open, public spaces, medical device designers need to incorporate more sophisticated access control technology into the devices they are developing. Electronic access solutions can offer the security needed to ensure patient data remains secure and regulatory compliance is achieved.
One of the toughest design engineering challenges is making a medical device that works flawlessly with the human body. The unique anatomy and physiology of every patient create physical complexities and ever-shifting functional parameters that must be thoroughly accounted for when producing a therapeutic product that may need to last a lifetime.
The rapid introduction of Lab-on-a-Chip (LOC) technology is accelerating the move to Point-of-Care Testing (POCT). However, many companies are finding that perfecting LOC technology is only part of building a viable business model. The need for a complete system approach is a prerequisite to broad and rapid market adoption. The options for building a complete system are complex, confusing, and sometimes conflicting.
The innovators selected to participate in StartX MedIC were unbelievable individuals. The participants included physicians, surgeons, physicists, electrical engineers, mechanical engineers, computer scientists, data scientists, computer programmers, industrial designers, interface designers, interaction designers, start-up founders, serial entrepreneurs, inventors, PhD students, medical students, and marketing executives from all types organizations and institutions.
Telepresence has uses in a variety of environments such as large enterprise and manufacturing facilities, where a robot can help distant engineers and other team members stay connected with their team with live audio and video, eliminating costs and travel time.
New material offerings are critical to medical device manufacturers as they provide new opportunities in the development of cutting edge technologies. This three-part round-up features three new materials that are impacting medical device manufacturing in the areas of adhesives/coatings, molding, and extrusion. This part focuses on molding.
New material offerings are critical to medical device manufacturers as they provide new opportunities in the development of cutting edge technologies. This three-part round-up features three new materials that are impacting medical device manufacturing in the areas of adhesives/coatings, molding, and extrusion. This part focuses on adhesives/coatings.
According to the National Sleep Foundation, more than 18 million American adults have obstructive sleep apnea (OSA). OSA occurs when the back muscles of the throat relax while sleeping, causing the airway to narrow, resulting in snoring. These muscles could also completely block the flow of air to the lungs. When the brain detects a lack of oxygenation, it sends an impulse to the muscles forcing them to restart the breathing process.
Would you please comment on the medical device industry as we move into 2013? Contract manufacturing continues to shift from just “manufacturing” to include a full road map of your finished products, including design, test, manufacturability, and distribution.