Medical device innovation is a key performance indicator (KPI) for the medical device manufacturing industry. Device companies are driven to continuously innovate their processes, to ensure quality, regulatory compliance, and short time-to-market for new products, and the speed of product innovation seems faster than we have seen it before.
We’ve identified 4 examples of how the speed of innovation is creating challenges for our customers in the medical device manufacturing industry.
Because of stricter performance requirements, testing requirements are also becoming more complex. Our customers in the medical device manufacturing industry have been looking for the ability to analyze real-time test result trends to anticipate necessary changes before a full-line stoppage is necessary. Additionally, test specifications are changing. Low-pressure requirements are becoming even lower in terms of test parameters, and high-pressure requirements are becoming higher.
Leak testers need to be able to accommodate multiple steps in the testing process, while maintaining high repeatability with optimal resolution and sensitivity. They must have two-way communication to the network, to send real time test results and analytics.
It is pretty common for medical devices to have unusual geometries, including tubes, valves, stopcocks, transducers, enclosures, and components within components. Because each part of a product needs to be tested, the testing process can become complex. Often, multifunctional testing is required, with leak testers being able to accommodate a wide variety range of tests, including pressure, vacuum, flow, occlusion, burst, and crack. Part integrity testing is also often a requirement, to ensure performance by verifying welds, assembly, and builds.
It’s important to make sure your leak tester accommodates a wide range of multifunctional testing, while maintaining the highest levels of performance, fast cycle times, and high repeatability.
Medical devices are becoming smaller to reduce patient pain and accommodate a hospital-to-home treatment model. Smaller devices, however, require higher pressures to get the same amount of flow or performance. Leak testers should be able to handle increasing pressures of >500 psi, as well as lower leak rates.
Because product validation is expensive, medical device manufacturers want to avoid a requirement for revalidation. This means that processes cannot change once they have been validated. Leak testers must be able to be duplicated with the same parameters and software, and the operation must take place in a highly controlled environment.
It’s important to use a leak tester with a very long lifecycle, with cradle-to-grave support. The leak test solution needs to be high quality, scalable, and globally supported, with many language options.