Medical Device Manufacturers’ business needs have changed significantly over the past several years, evolving the roles that technology plays within their manufacturing process. Two key technologies, Enterprise Resource Planning (ERP) and Product Lifecycle Management (PLM), have developed into critical success factors for these manufacturers.
The ATW Companies (A. T. Wall Company, located in Warwick, RI, Judson A. Smith Company, located in Boyertown, PA, and Parmatech Corporation, based in Petaluma, CA.) have found a niche as a valuable resource and strategic partner with its customers, rather than simply a supplier. By focusing on the factors driving its customers’ business and communicating with them to solve their problems, the firm has earned a reputation for making its customers successful.
The recent federal announcement of its $547 million grant release to facilitate Health Information Exchanges (HIEs) at the state level seems like new life is being given to the data exchange landscape.
When design engineers who need special cable constructions hear the word custom, they often cringe, conjuring up dollar signs and delays. That doesn’t have to be the case anymore. Due to customer feedback and overseas competition, progressive manufacturers have adapted to make custom cable solutions accessible.
Electronic medical devices, especially those that come into contact with the human body, are at risk for electrostatic discharge (ESD.) Inadequate protection may damage the IC or interfere with communications critical to patient care. This article shows how to choose an ESD device that will give the best chance of a successful first pass design.
What is scaled manufacturing? Scaled manufacturing takes a medical device idea or concept from prototype to production in quantities required to meet customer demand with absolute consistency and reliability. Because of the competitive advantage scaled manufacturing offers, product designers can expand or retract supply with minimal effort, cost, or infrastructure—creating an efficient response to unpredictable industry and customer demands.
Mapping/ablation catheters are used to treat atrial fibrillation. Current mechanical catheters can be difficult and time consuming to operate and hinder reproducible and consistent ablation. This article describes new electroactive polymer (EAP) technology that provides the basis for the development of electronically controlled steerable actuators. The EAP technology will enable standard catheter platforms to incorporate advanced micro-steerability, reduced procedure times and advanced automation capabilities. The innovative electrically steered catheters will benefit millions of Americans who are suffering from atrial fibrillation.
Diagnostic laboratories have an important role to play in ensuring patient safety. The chance for human errors and omissions is high in specimen collection, testing, and blood transfusions because these processes have so many manual steps. Automating specimen collection and transfusion management can create closed loop systems that virtually eliminate errors in labeling of specimens, incorrect patient draws, and incorrect transfusions.
Computed tomography (CT) has come a long way since its public inception in 1972. The rapid improvement of computer technology and the increasing capabilities of CT scans have gone hand in hand. CT scans that used to take hours are now being completed in seconds. This increase in capabilities has led to CT scans being used more often and in more ways than ever before. The use of CT in the medical nondestructive testing (NDT) field is one example that has grown tremendously in the past few years, and it is also the focus of the following article.
As the medical industry evolves and technology in medical devices becomes more advanced, it is necessary to protect those ideas. Medical device engineers and manufacturers often look to the physician to improve such devices and make related...
In the last few months, the medical device community has found itself amidst a political fallout that threatens any forthcoming economic improvements. To fund the healthcare reforms set forth by Congress, medical device manufacturers will soon be charged a 2.3 percent excise tax on the sale of most medical devices.
Robotic Surgical Assistants: New Robot Controls and Operating Methodology Allow Robots to Assist SurgeonsJuly 15, 2010 7:06 am | by Adept Technology | Comments
Robots have been assisting surgeons since 1985 for remote surgery, unmanned surgery and minimally invasive surgery. Robotic surgical assistance has many advantages including smaller incisions, decreased blood loss, less pain, quicker healing time and the ability to pinpoint locations very precisely. Automated systems that support surgeons in procedures such as the implantation of prosthetics used in hip replacements are becoming a more common fixture in the operating room.
For your area of the industry, what is the most significant consideration when designing a device for use both domestically and internationally?
The new design used to complete the surgery is named the Positioner Assembly Tool. The single tool design assembly includes details within the assembly which work with individual tools to complete all the necessary functions. During the product development process, Par3’s Analysis Driven Design Process was used to create features and functions to enhance and optimize the product. This process uses computer aided analysis software to optimize the design of a product and reduce the need for costly sample building and speed up the development cycle.
Portable, space-saving medical devices are the trend in today’s health care industry. Several popular storage solutions have been adopted by medical equipment manufacturers, including solid-state storage due to its space and power savings characteristics. Solid-state drives (SSDs) offer, in most cases, significant power savings which translate into longer battery life for mobile applications. This also makes them especially well-suited for portable medical devices.