Certified Welding Systems Support Medical Device Industry
Quality systems for the welding of medical devices rely on a variety of set standards, including protocols, certification and federal agency compliance.
A quality system rigorous enough to support the medical device industry is a necessary component of any welding company doing business in that sector. But what exactly does that include? A little bit of everything, it turns out. From IQ/OQ/PC (installation qualification/operational qualification/performance qualification) documentation, to adherence to ISO 13485 quality management standards, to compliance with FDA good manufacturing practices; quality procedures and documentation pervade the entire organization.
Ensuring that welding processes meet necessary quality standards is relatively simple. Work with an established welding firm having robust engineering resources that are involved from prototype to production and FDA submission. Firms with these capabilities can offer help in selecting materials and designing weld joints to improve functionality, while ensuring a stable manufacturing process.
Process and equipment protocol
IQ/OQ/PQ is a complete verification of equipment and process protocol often required by medical device companies, and performed by each supplier. One particularly rigorous method of documenting the production process is known as “alphabet soup.” With this method, everything that happens to a component gets documented—for example, which machine it is run on, what inspections will be conducted and at what frequency, etc. To ensure the process is sound, the documentation may also include a capability study and gauge repeatability and reproducibility to prove out any variances in setup and operator factors.
Each IQ/OQ/PQ is conducted to suit the requirements of the customer, and the process is massaged as needed to match hardware functionality. For example, a validation procedure may demonstrate that the development meets engineering requirements and acceptance criteria for nominal settings on a sample set of components. A statistical analysis must be carried out for each process step.
After the detailed work is completed, to ensure regulatory compliance, it is essential that the supplier prepare and maintain the applicable machinery and equipment qualification reports for auditing purposes. No structural changes may be made to the equipment without first notifying the customer and evaluating whether a requalification is necessary.
ISO 13485 certification
An important aspect of the medical device quality support story is the ISO 13485 Medical Device Standard, which outlines a comprehensive quality management system for the design and manufacture of medical devices. Subcontract manufacturers who achieve this certification can demonstrate that they are processing parts to the same rigorous standards as major medical device manufacturers.
ISO 13485 involves the development of controls to ensure product safety with a focus on risk management and design control activities during product development. For implantable devices, there are specific inspection and traceability requirements—sterile medical devices require verification that corrective and preventive actions will actually be effective.
To gain the certification, the welding service provider generally conducts an internal quality audit to ensure it meets the standards, and then contracts with a third party for the actual registration audit. The company then trains its own internal quality auditors, who work to maintain the standards.
Joining Technologies, East Granby, Conn., decided to pursue ISO 13485 certification as a way of showing that it processes parts to the same standards as its medical customers. The company was already certified to quality management standards under NADCAP (National Aerospace and Defense Contractors Accreditation Program) and AS9100, so the move to ISO 13485 was a natural step.
According to the FDA’s Quality System Regulation/Medical Device Good Manufacturing Practices, “manufacturers must establish and follow quality systems to help ensure that their products consistently meet applicable requirements and specifications.” Quality systems for FDA-regulated medical devices are known as current good manufacturing practices (CGMPs). Over the years, CGMPs for medical devices have been revised to include design controls, becoming more closely aligned with the international standards found in ISO 9001 and ISO 13485.
In 1997, the FDA revised the CGMP requirements for medical devices and incorporated them into a quality system (QS) regulation called Medical Devices; Current Good Manufacturing Practice Final Rule; Quality System Regulation, found in 21 CFR Parts 808, 812 and 820. While not regulating exactly how a manufacturer should produce specific devices, the QS regulation sets out a framework to be followed, requiring manufacturers to use “good judgment” when developing their quality system and applying the QS sections that are specific to their products and operations.
Welding engineering capabilities
Medical device welding qualification is a team effort. Having a dedicated project manager along with an experienced engineering team can give great peace of mind to the customer who will assemble and sell the complete medical device.
An important factor in developing and implementing a quality welding process is to ensure that the engineering team gets involved in the earliest stages. Being involved from prototype to production and FDA submission allows the development engineers to provide input on functionality and the redesign of joints, if necessary, to meet quality objectives.
The best approach is to work with a welding firm that gives its customer access to its processes. Medical device developers can then see how their part gets welded and be involved throughout the qualification and production stages. Of course, this kind of open access policy must be coupled with a strong intellectual property (IP) program so the customer’s IP is always protected.
Maintaining a flexible approach in the joining process, including the ability to access a variety of fusion techniques, helps provide optimal solutions based on part design and geometry. Companies offering electron beam, laser and traditional welding techniques within the same facility have a clear advantage over those that are limited to, for example, just laser welding.
Quality systems for the welding of medical devices rely on a variety of set standards. A project is most likely to succeed when a medical device manufacturer works with an engineering firm that can perform feasibility studies, process development, validation and certification, systems engineering and integration and full-scale production.