SensorMed's Surgical Safety Device Uses Solvay's Polysulfone for High Heat Resistance and Light Dispersion CableJune 12, 2012 12:36 pm | by SensorMed | Solvay Specialty Polymers | Comments
SensorMed has introduced a disposable version of its CableCap™ laparoscopic safety device, which is designed to eliminate the risk of fire caused by high-intensity surgical light cables in operating rooms. The CableCap device is injection molded of Udel® polysulfone (PSU) resin from Solvay Specialty Polymers USA, LLC, for high heat resistance, strength, and excellent light dispersion.
Even at an altitude of 4000 meters above sea level, quality made in Germany is in great demand: The Bolivian plastics specialist Matriplast is probably the KRAIBURG TPE customers nearest to the sky. Together with the manufacturer of the THERMOLAST M compound, the company has recently brought a development project for an innovative new solution to completion. Matriplast produces closures for infusion bags that are made from the special medical series THERMOLAST® M.
For nearly all medical device companies, there will come a time when it is in the leadership’s best interest to consider their exit strategy. But while many founders and start-up executives may limit their search within the United States, more and more smart executives are looking overseas for their exit from the business. This can sometimes be an intimidating process for those not familiar with international regulations but it’s a consideration more medical device companies should look into.
SuppServe is a boutique package design firm located in northern California that specializes in single-serve dispensing solutions. “Inventors, innovators, marketers and sellers of all things single-serve”, SuppServe is dedicated to simplifying the delivery methods of a variety of common products that are sold in bulk and require single-serve dosing by the customer.
Improving Lives with Complex Machinery and the Right CAM. Machining a better world is a tough job, but someone’s got to do it. In a world where instant gratification is increasingly instant and consumables increasingly consumable, it can be easy to forget that most everything we use was manufactured by someone, somewhere at some time.
In developing an important new treatment for cranial aneurysms, a leading southern California biotech company faced a key challenge: how to precisely control the viscosity of their injectable medical liquid. To find a solution, the company turned to Cambridge Viscosity.
Counterfeit cables are bulk cables or cable assemblies sold under false pretenses to undercut legitimate manufacturers. Unscrupulous sellers have found many ways to cut costs, but at a price. If you get a low bid for your next cable buy, check these factors to make sure you are getting what you are paying for.
NVision Inc., a leader in 3D non-contact optical scanning for over 21 years, recently provided an orthodontic company with the information it needed to recalibrate its CT scanner. The company, an orthodontic supplier, utilized NVision’s Engineering Service Division to scan a human skull as part of the verification/inspection process for its in-house CT machine. The scanning results provided by NVision contained all the measurement data necessary for the orthodontic company to recalibrate its CT machine to the highest possible level of accuracy.
Why do some teams consistently meet their schedule, cost, and quality targets and others do not? There are libraries full of answers, but two will be discussed that are critical for effective teams: 1) make sure all team members know the company’s Product Development Process and 2) know which deliverables all team members must provide to each other.
As the cross-pollination of the molded electronic and medical components industries continues, the products in each industry are becoming much smaller and much more complex. Toolmakers, molders, suppliers and the OEMs of medical components that incorporate electronics must all have a firm understanding of the ideas, processes, expectations and standards of both industries in a collaborative effort to produce the highest quality component-level parts at the lowest viable cost.
With the help of a committed management team, a zealous company wide SDWT champion, dedicated team leaders/cheerleaders, and most importantly, participation of everyone on the shop floor, Farmington, CT-based Connecticut Spring & Stamping (CSS), is well on its way to meeting its ambitious goals, just two years after launching the initiative.
Requirements traceability is seen to yield a more predictable outcome at deployment, and responds to an increased demand for sound monitoring and management techniques during development, particularly between project phases. Appropriate automation can ensure that requirements are shown to be in compliance across the entire software development cycle, and demonstrates how a combination of tools and best practices can ease the implementation and maintenance of software development for medical devices.
Broncus Invests In Its Future: Innovative Medical Company Turns to the Cloud to Simplify the Document-Intensive Due Diligence ProcessJune 12, 2012 7:06 am | by Dave Fleming | Comments
For Broncus Chief Operating Officer Gary Kaplan, pursuing funding requires the management of a large number of documents which often need to be customized for each investor involved in due diligence. For example, the recent request from just one potential investor included 120 items, many of which were unique to that company’s needs. With requests coming in constantly, Kaplan found himself overwhelmed by the sheer volume of documents he needed to keep track of on a daily basis.
Ballbar analysis is a proven method for determining machine tool capability, and is the most practical, convenient and comprehensive tool for assessing the contouring accuracy of CNC machines. Ballbars have been commonplace at precision machining operations for more than 20 years, but a Midwest-based medical device manufacturer, is showing how the latest wireless ballbar technology makes a big difference in doing fast capability checks on small machines, as well as establishing a benchmark on machines' volumetric accuracy.
In medical imaging devices, large quantities of video imaging data need to be transferred from image sensor to image processor while maintaining high levels of electrical isolation so the sensor won’t shock the patient. The high-speed digital data transmission channels between the sensor and image processor require high-levels of isolation while transferring data at up to 100Mbaud for real-time displays.