Susan G Quick

Title: **Innovative Contributions of Susan G. Quick in Biocontamination Assessment**

Introduction

Susan G. Quick, an accomplished inventor based in Kirtland, Ohio, has made significant strides in the field of microbial deactivation processes. With two patents to her name, her work focuses on enhancing the effectiveness of biocontamination deactivation methods.

Latest Patents

Her latest inventions include a "Process Challenge Device for Assessing the Effective Performance of a Biocontamination Deactivation Process" and a "Sterile Single Use Sampling Device." The process challenge device is designed to evaluate how effectively a vaporous deactivating agent, such as vaporized hydrogen peroxide, can neutralize microbial threats. This innovative tool features a chamber for biological and chemical indicators, along with conduits that ensure communication between the chamber and the external environment.

The sterile single-use sampling device is engineered for collecting fluid samples from process conduits. It consists of a tubular core with an integrated passageway, surrounded by a tubular sleeve that enables attachment to a conduit. This design allows a syringe to puncture the core and obtain samples efficiently.

Career Highlights

Susan G. Quick is associated with the American Sterilizer Company, where her expertise contributes to advancements in sterilization technology. Her patents demonstrate her commitment to improving safety and efficacy in healthcare environments.

Collaborations

Throughout her career, Susan has collaborated with notable colleagues, including Christopher J. Justi and Michael M. Tsentr. Together, they have worked towards creating innovative solutions that directly address critical challenges in the field.

Conclusion

Susan G. Quick stands out as an influential inventor whose contributions have significantly impacted biocontamination assessment and management. Her patented devices not only represent technological advancements but also reflect her dedication to enhancing safety in various processes. As the field continues to evolve, her work will undoubtedly inspire future innovations.