Amanda H Schaffers

Title: Amanda H Schaffers: Innovator in Clinical Diagnostics

Introduction

Amanda H Schaffers is a prominent inventor based in Cary, NC (US). She has made significant contributions to the field of clinical diagnostics, holding a total of 3 patents. Her work focuses on enhancing the efficiency and safety of clinical analyzers used in in vitro diagnostics.

Latest Patents

Amanda's latest patents include innovative mechanisms designed to improve clinical analyzer operations. One of her notable inventions is the "Clinical analyzer probe crash detection mechanism and process." This invention features a transfer arm equipped with a probe and a crash detection mechanism that requires no user intervention after a collision event. The mechanism is designed to protect the probe from damage during collisions and includes features such as automatic resetting, self-checking, and alignment correction.

Another significant patent is the "Quick connection for liquid level sense-enabled metering probe." This invention allows for a simple, tool-less, and automated connection between a transfer probe and a capacitive liquid level detection printed circuit assembly (PCA). The design facilitates a single user connection, ensuring a mechanical, fluid, and electrical connection between the probe and the transfer arm, which is crucial in hospital or laboratory settings.

Career Highlights

Amanda H Schaffers is currently employed at Siemens Healthcare Diagnostics GmbH, where she continues to innovate in the field of clinical diagnostics. Her work has been instrumental in developing technologies that enhance the reliability and functionality of clinical analyzers.

Collaborations

Throughout her career, Amanda has collaborated with notable colleagues, including William David Dunfee and Stephen Krufka. These collaborations have contributed to the advancement of her inventions and the overall progress in the field.

Conclusion

Amanda H Schaffers is a trailblazer in clinical diagnostics, with her inventions significantly impacting the efficiency and safety of medical testing. Her contributions continue to shape the future of in vitro diagnostics, making her a key figure in the industry.