Company Filing History:
Years Active: 2009-2012
Title: Egon Toft: Innovator in ECG Analysis
Introduction
Egon Toft is a notable inventor based in Aalborg, Denmark. He has made significant contributions to the field of electrocardiography (ECG) through his innovative patents. With a total of 3 patents, Toft's work focuses on improving the analysis of ECG curves, particularly in relation to complex conditions.
Latest Patents
One of Toft's latest patents is a "System and method for analyzing complex curvature of ECG curves." This invention involves a mathematical analysis that isolates and stores various parameters in a computer. The system aims to enhance the mathematical analysis of ECG curvature, especially for complex features such as notches or concavities. By selecting parameters from groups of symmetry, flatness, duration, and complexity, the algorithm evaluates concavity intervals on subsegments of the ECG segment, quantifying the concavity effectively.
Another significant patent is the "System and a method for analysing ECG curvature for long QT syndrome and drug influence." This invention relates to analyzing the impact of drugs on ECG curvature and diagnosing Long QT Syndrome. The system connects to an ECG source and isolates parameters to indicate possible symptoms related to diseases affecting the ECG curvature. The goal is to provide a fast and objective method for diagnosing Long QT Syndrome and testing drug influence on ECG curvature.
Career Highlights
Egon Toft is affiliated with Aalborg Universitet, where he continues to contribute to research and innovation in the field of ECG analysis. His work has garnered attention for its potential to improve diagnostic methods and patient outcomes.
Collaborations
Toft has collaborated with notable colleagues, including Thomas Bork Hardahl and Claus Graff, enhancing the impact of his research through teamwork and shared expertise.
Conclusion
Egon Toft's innovative patents in ECG analysis demonstrate his commitment to advancing medical technology. His contributions have the potential to significantly improve the diagnosis and understanding of complex cardiac conditions.