In an effort to advance the benefits that lasers can offer to surgeons, Memorial Sloan-Kettering Cancer Center partnered with a motor and motion control specialist to fabricate an endoscopic laser scalpel that incorporates a remote-controlled beam steering device right in the endoscope head. This article highlights the efforts of that collaboration.
Drug delivery coatings are not a new technology to the medical device industry. However, as more implantable devices are tasked with achieving a greater level of healthcare, they do offer great benefit to design engineers. This article reviews drug coating technology and looks at application areas where it has made a significant impact.
Most manufacturing and industrial businesses are familiar with equipment leasing and financing, but may not know the kinds of specific information they need to make the best financing decisions for their investments in equipment or software. Understanding the ways in which leasing fits your company’s particular needs can help to build a solid business case for financing as well as determine which financing option to choose.
A manufacturer of orthopedic implants needed to improve measurement and documentation proficiency of parts with literally hundreds of configurations. Air gaging from Mahr Federal was chosen because it could quickly and accurately measure precision tapers, along with being simpler and cheaper to engineer than any mechanical gages.
Medical devices are increasingly dependent on software, evolving from the use of a simple two-transistor circuit for early artificial cardiac pacemakers to sophisticated modern systems supporting infusion pumps, electrocardiogram analysis, and image-guided surgery.
Two-thirds of health IT executives in the U.S. believe the use of mobile technology will substantially or dramatically impact the delivery of healthcare in the future. But how will the form and function of this technology be defined? How can the designers of technology ensure the best fit with the needs of the healthcare professionals who will make use of it?
When it comes to component fabrication for production ready parts, designers typically have a good idea which process they’d like to specify. However, when it comes to prototyping, they may not be as clear on the best process for their needs. This article looks at three common fabrication processes—3D printing, machining, and molding—and clarifies which to use when for prototype parts.
In the field of medical technology, wireless devices are seeing some of the most broad-reaching growth. This is due mostly in part to the wide range of applications that wireless medicine encompasses. Mobi Health News reports that the top ten areas wireless medicine has directly benefited include: Alzheimer’s, asthma, breast cancer, COPD, depression, diabetes, heart failure, hypertension, obesity, and sleep disorders.
CAS DataLoggers Engineer Terry Nagy has worked on a uniquely challenging data acquisition application which highlights the effectiveness of Delphin data loggers. A medical equipment manufacturer had a customer in a hospital who was experiencing problems with a particular CT scan machine that would reset in the middle of the procedure, which cost significant time as patients often had to be scanned again.
Small but meticulous—allshape AG in Lengnau, Switzerland, near Biel specializes in high-precision products for all common shapes of dental implants. Thanks to the reliable Sinumerik 840D CNC, allshape AG gives dental laboratories customized and fast delivery service.
Imec and Panasonic are jointly developing a fully integrated sample-to-answer device to perform molecular diagnostic tests. Recently, they’ve created prototype of the device. The chip is about half the size of a credit card that performs fast, simple and sensitive detection of genetic markers, specifically single nucleotide polymorphisms (SNPs).
Life sciences is one industry that is currently undergoing a turbulent development environment. Major advancements such as next-generation DNA sequencing and molecular imaging are expected to drive growth in categories such as immunochemistry and genetic testing. Add to this that changes in government regulations and market conditions are forcing life science OEMs to build their products using faster, smaller more modular technologies.
Though medical devices are always moving towards less invasive, more effective technology, they face a constant, persistent and ever-evolving enemy in deadly bacteria and infections. Healthcare-associated infections (HAIs) can be caused by any infectious agent and result in 99,000 deaths per year, according to the Centers for Disease Control and Prevention.
While all electronic products must comply with electromagnetic compatibility (EMC) requirements, EMC evaluation of medical devices is expanded to include product safety. This step-up is understandable as human health and life are frequently dependent on medical devices in a healthcare setting.
Many engineers and purchasing agents think it is more expensive to custom design a component or assembly these days when often customization can save on total costs. How can this be when an off-the-shelf unit typically is less expensive than its custom-produced counterpart?