Most often, it seems medical device manufacturers are deciding between machining and molding for their component fabrication needs. However, there are alternatives that should be explored. Stamping offers an array of excellent advantages for designers who need micro parts made from metal materials.
The use of lasers in the development of medical devices through to their actual usage in the...
The portable medical devices industry is a fast growing world. With the advent of various smart...
Much like other medical technology, implants are adapting to a post-depression economy brimming with new materials, new ideas, and ambitious plans for the future. The result is a focus on designing safer, more bio-compatible products for local markets.
To meet the needs of today’s healthcare professionals, medical instrumentation is getting smaller and made to be portable. That means the components in them need to be smaller, while still maintaining a high level of precision. This article will look at micro valve technology in portable medical devices.
Regardless of the indication, the technology, or the manufacturing process, all medical devices face thorough testing regimens to ensure they function as designed. There’s no room for error with any medical device, whether a low-tech orthopedic knee brace or a life saving pacemaker. The patient relying on the device they are using needs it to work perfectly.
A new formulation of synthetic, biochemically absorbable polymers is creating opportunities in the medical device and pharmaceutical fields. These “bioabsorbable polymers” are materials designed to dissolve into compounds that the body can safely absorb or eliminate.
New unique device identification labeling rules are on the way for medical devices, so it’s best for engineers to be aware of what impact they may have prior to them being mandatory. This article looks at the main points behind the coming rule and the considerations for ensuring proper symbol quality and label/mark verification.
Medical adhesives are often relied upon to provide the critical linkage between the body and a medical device. To effectively interface the two, adhesives are called upon to manage a host of factors at play at the skin/device interface, such as moisture and movement, and also control the environment with respect to things like microbial flora, odor, or skin hydration.
Diagnostic technology covers a broad range of equipment, tests, and medical fields, and recent advancements in technique and materials means that innovations are widespread and growing rapidly. Though economic conditions are preventing huge advancements in diagnostic imaging—if hospitals can’t afford the new technology, there is no point in designing it—the medical imaging community is focusing on refinement, rather than redesign.
Ingestible medical devices offer a convenient, non-invasive method of delivering therapeutics, enabling diagnostic procedures, or performing imaging tasks. However, ensuring that the sensitive electronics within the device are protected is a challenge. This article will highlight a coating technology that is being used to guarantee such protection is provided.
Surgical robots are becoming more of a standard in operating rooms. As such, device designers are going to need to understand the motion control technology that makes them function. This article looks at the “sheet music” that offers the guidance to the “conductor” who is instructing the “instruments.”
Ceramic materials have been used for artificial joints since the 1970s, yet the need for smaller medical implants with more complicated structures has created exciting new opportunities for those manufacturing ceramic solutions for the medical market. As a result, detailed and complex ceramic components are becoming increasingly specified for a wide range of applications.
Ethylene oxide and radiation sterilization make up two of the most common forms of sterilization for medical devices. As the device is prepared for release to market, knowing which type of sterilization to use for each product can save time and money.
The extrusion of medical tubing can be a relatively “simple” task or it can present a number of challenges; it all depends on the application, materials to be used, etc. This article will focus on single lumen tubing and take a walk through a selection of the options available to the designer from the simplest to the most complex.
As capacitive sensors integrate more with emerging technology, replacing more traditional buttons, design engineers are able to get rather creative with how they can design them into devices. This article reviews how capacitive sensing can be applied to determine the quality of the contact between a medical device’s surface and the wearer’s skin.
The remote patient monitoring field is a rapidly growing one given the advantages it offers for home healthcare, remote regions, and elderly care. However, with it comes a long list of considerations and critical issues for designers and engineers to keep in mind. This article offers a “bird’s eye view” of this sector and many of the factors on which to maintain focus.
Many of the sterilization issues concerning gamma and electron beam radiation are the same. This point is supported by the fact that both technologies are governed by the same ISO standards when applied to medical device sterilization—ISO 11137 and ISO 13409. Both technologies have been proven effective at sterilization and are accepted worldwide.