Company Filing History:
Years Active: 2024-2025
Title: The Innovative Mind of Savannah K. Steele
Introduction
Savannah K. Steele, an inventive spirit based in Durham, NC, has made significant contributions to the field of medical technology. With one patent to her name, she demonstrates a commitment to enhancing patient care through innovative solutions. Her work embodies the spirit of innovation that drives the medical field forward.
Latest Patents
Savannah's patent, titled "Systems, apparatus, and methods for reducing fluid pressure in a fluid line," showcases her ingenuity. In this invention, a tube portion is designed to be fluidically coupled to a patient access component. The patent outlines how a source of pressurized fluid connects to the tube portion, delivering fluid at a specific source pressure. A critical feature is the fluid pressure regulating device, which includes an expandable reservoir that communicates with the tube portion. This system effectively regulates the fluid delivery, expanding the reservoir to facilitate the safe and effective transfer of fluid to patients.
Career Highlights
Savannah is currently associated with 410 Medical, Inc., a company that specializes in innovative solutions for healthcare. Her work at the company reflects her dedication to developing new technology that improves patient outcomes. Her vast knowledge in fluid dynamics and medical apparatus design positions her as a key player in her field.
Collaborations
Throughout her career, Savannah has collaborated with talented individuals such as Andrew W. Lane and Galen C. Robertson. These partnerships foster a dynamic environment that encourages shared knowledge and innovation, ultimately enhancing the development of their projects.
Conclusion
Savannah K. Steele exemplifies the transformative power of innovation in the medical industry. Her patent reflects a forward-thinking approach to healthcare challenges, positioning her as a valued inventor in her field. With her continued contributions, she inspires future innovations that may redefine patient care.