Company Filing History:
Years Active: 2022-2025
Title: Susan Kayser: Innovator in Wound Healing Technology
Introduction
Susan Kayser is a prominent inventor based in Batesville, IN (US), known for her contributions to medical technology. With a total of 7 patents, she has made significant strides in the field of wound healing analysis and patient management systems. Her innovative work focuses on improving the way wounds are analyzed and tracked over time.
Latest Patents
One of her latest patents is titled "Wound healing analysis and tracking." This invention is directed towards a patient management system that analyzes images of wounds and tracks their progression. The system utilizes a computing device that receives an image, identifies it as a wound, and inputs it into a machine-learned model trained to classify wounds. The classification is then displayed in a user interface, enhancing the management of wound care.
Another notable patent is "Image-based pairing and controlling of devices in a clinical environment." This method involves capturing images with a camera to detect a medical device. A request is sent to the device, and based on the response, the system can control the device to perform specific actions. This innovation streamlines clinical processes and improves patient care.
Career Highlights
Susan Kayser is currently employed at Hill-Rom Services, Inc., where she continues to develop groundbreaking technologies in the healthcare sector. Her work has been instrumental in advancing patient management systems and enhancing the efficiency of medical devices.
Collaborations
Throughout her career, Susan has collaborated with talented individuals such as Stacey A Fitzgibbons and Johannes De Bie. These partnerships have fostered innovation and contributed to the success of her projects.
Conclusion
Susan Kayser's contributions to wound healing technology and patient management systems exemplify her dedication to improving healthcare. Her innovative patents and collaborative efforts continue to make a significant impact in the medical field.