Company Filing History:
Years Active: 2014
Title: Innovations by Kyle R Harrison
Introduction
Kyle R Harrison is an accomplished inventor based in Kansas City, MO (US). He has made significant contributions to the field of medical technology, particularly in the area of data analysis for in-vivo devices. His innovative approach aims to enhance patient care through automated systems.
Latest Patents
Kyle holds a patent for "Automated analysis of data collected by in-vivo devices." This patent describes systems and methods for operably coupling medical devices with an evaluation device to enable closed-loop processing. The evaluation device is designed to receive diagnostic information related to a patient's physiological attributes and the operational status of the medical devices. Upon receiving this information, the evaluation device automatically analyzes the data and composes instructions based on the analysis. This process includes comparing the data against content within an electronic medical record (EMR) and applying evidence-based medical rules. The resulting instructions can invoke actions at the medical devices, such as dispensing medication or reprogramming settings, and can also prompt healthcare professionals to intervene in a patient's treatment.
Career Highlights
Kyle is currently employed at Cerner Innovation, Inc., where he continues to develop innovative solutions in healthcare technology. His work focuses on improving the efficiency and effectiveness of medical devices through advanced data analysis techniques.
Collaborations
Kyle collaborates with talented professionals in his field, including Lori N Cross and Daniel P Devers. These partnerships enhance the development of cutting-edge technologies that aim to improve patient outcomes.
Conclusion
Kyle R Harrison's contributions to medical technology through his patent and work at Cerner Innovation, Inc. demonstrate his commitment to advancing healthcare solutions. His innovative systems for automated data analysis are poised to make a significant impact on patient care.