Company Filing History:
Years Active: 2010-2018
Title: Innovations by Knut Stamnes in Optical Diagnosis
Introduction
Knut Stamnes is an accomplished inventor based in Maplewood, NJ, with a focus on optical methods for medical diagnostics. He holds three patents that contribute significantly to the field of tissue analysis and diagnosis. His work emphasizes the importance of distinguishing between malignant and benign tissue lesions, which is crucial for effective medical treatment.
Latest Patents
One of Stamnes' latest patents is the "Optical transfer diagnosis (OTD) method for discriminating between malignant and benign tissue lesions." This innovative method involves using a variety of maps generated from reflectance measurements to analyze tissue lesions. The process includes calculating entropies and cross entropies, assigning weights to various parameters, and solving optimization problems to maximize diagnostic specificity while ensuring 100% sensitivity. This method ultimately aids in determining whether a tissue lesion is benign or malignant.
Another significant patent is the "Optical method for determining morphological parameters and physiological properties of tissue." This method utilizes reflectance measurements across multiple wavelengths and incorporates a bio-optical model along with radiative transfer modeling. By systematically varying the values of morphological parameters and physiological properties, the method achieves a high level of accuracy in matching reflectance measurements with computed values.
Career Highlights
Throughout his career, Knut Stamnes has worked with notable companies, including Balter, Inc. His contributions to the field of optical diagnostics have been recognized for their innovative approach and practical applications in medical technology.
Collaborations
Stamnes has collaborated with esteemed colleagues such as Jakob J. Stamnes and Boerge Hamre, further enhancing the impact of his work in the field of optical diagnostics.
Conclusion
Knut Stamnes is a pioneering inventor whose work in optical methods for tissue diagnosis has the potential to transform medical practices. His patents reflect a deep understanding of the complexities involved in tissue analysis, making significant strides toward improving diagnostic accuracy.