Adhesive technology is critical to many aspects of medical device technology, from securing components within a finished device to adhering wound care products or electrical pads directly to a patient's skin.
Silicone gel pressure sensitive adhesives are offering a revolutionary solution to applications such as medical device attachment and wound care.
The unique properties of piezo film as a dynamic strain sensor make it particularly well-suited to the detection of vital signs, whether mounted in direct contact with the skin or mechanically coupled through intervening layers.
The Project: Preserve prior IP investments in long-lifecycle applications while also enabling new features to be introduced without compatibility issues.
Transdermal drug delivery offers numerous advantages over other more commonly used techniques. However, the size of a pharmaceutical’s molecules has traditionally been a limiting factor in terms of the type of drug that could benefit from this method.
Establishing clear and efficient communication as part of the design transfer process can be a key component to decreasing the time it takes to bring a product to market.
Worldwide demand for quality medical equipment ensures that many device manufacturers will have to engage in a reverse logistics scenario in order to extract the greatest potential from their products.
A breakthrough technology uses CAD functionality to convert CT and MRI scans into individualized, minimally invasive articular replacement systems. The end result, customizable orthopedic implants, could become much more commonplace for patients who require this type of treatment.
Over the years of working with many different companies, wire processing machine vendors have seen many ways to increase machine utilization and productivity for automatic termination machines. This article will discuss a few of the basic concepts.
The use of sensors in medical devices has been increasing and will continue to do so with newer technologies. As such, learning more about the specifics of these components is essential for designers to be successful and provide the greatest array of capabilities in their products.
Industries currently using acoustic wave sensors are finding them to be useful in an assortment of application areas. The medical device community is taking note and looking at this technology for potential monitoring in specific medical devices.
Utilizing the ideal storage solution in a medical device can be the difference between a success story and a failure. Due to an array of benefits in terms of size, power consumption, reliability, and durability, solid state storage fulfills the need for many medical devices.
Providing doctors with a handheld, portable ultrasound unit with which to help diagnose patients would be a tremendous tool for enhancing patient care.
The testing of any medical device is critical to the overall design and development cycle in order to ensure its safety and effective performance. As such, companies need to be certain that the methods they use to perform these tests are as accurate and reliable as possible.
Medical device manufacturers are coming to realize the potential advantages of three technologies traditionally used in the semiconductor industry. Micro photolithography, thin-film processing, and electroforming are all processes that can offer unique solutions for medical devices.