Duration: 60 Minutes
We will explain what a 510(k) is and explain the other FDA regulatory pathways. We will discuss how software can be considered a device by the FDA. The procedure to obtain a 510(k) will be explained. The contents of the submission to the FDA will be explained.
The very confusing concepts of “predicate device’ and “substantial equivalence” will be explained. How to find an acceptable predicate device will be explained. FDA clears the final validated version of software and requires a new 510(k) submission if “substantial changes” are made post release. We will explain how to evaluate changes to software and hardware.
The requirement for a new 510(k) submission for a substantial change leads into the regulatory difficulty Machine Learning products find themselves. A ML product is designed to learn and update post approval and release. The updated ML algorithm is no longer the approved validated product. Thus the changes probably necessitate a new 510(k) submission for each update.
FDA recognizes this problem and has proposed methodology to satisfy the regulations. We will discuss this proposed FDA solution which will become a Guidance this year. In the meantime , FDA has approved “locked” ML products. We will discuss what that is and, based on a review of the submissions of cleared ML products, what the FDA wants to see in a ML 510(k) submission so that you can get your ML product cleared now.
This webinar is not a programming course but is an explanation of the regulatory process.
Areas Covered in the Session:
Who Should Attend:
Attendees are expected to have a basic knowledge of FDA regulations and machine learning concepts.
Edwin Waldbusser retired from industry after 30 years in management of development of medical device products and development of company Quality Systems. He was involved in the development of products such as IVD devices, kidney dialysis systems and inhalation devices. His QS experience includes, design control, risk analysis, CAPA, software validation, supplier qualification/ control and manufacturing/non-conforming product programs. He now consults in the area of quality systems for medical devices with emphasis on design control, software validation, risk analysis and human factors analysis.
Ed has a B.S. Mechanical Engineering from NYU and a M.B.A from Drexel University. He is certified by Lloyds of London as an ISO 9000 Lead Auditor and is a member of the Thomson Reuters Expert Witness network. He has 5 issued patents.