Location History:
- Munich, DE (2010 - 2016)
- München, DE (2013 - 2018)
Company Filing History:
Years Active: 2010-2018
Title: The Innovative Contributions of Marcus Scheibenzuber
Introduction
Marcus Scheibenzuber, an accomplished inventor based in Munich, Germany, has made significant strides in the field of fluid sample analysis and immunoassay technologies. With a total of five patents to his name, Scheibenzuber focuses on developing methods and devices that enhance the accuracy and specificity of pathogen detection.
Latest Patents
One of his latest patents is a groundbreaking device designed for the detection of an analyte in a fluid sample. This invention particularly emphasizes a method for identifying pathogens in human body fluids, with the collection of samples performed using a swab member. Another notable patent addresses a method aimed at increasing the specificity and accuracy of lateral flow immunoassays. This innovative approach involves preventing interfering substances from compromising the accuracy of test results. It features a test strip with a capturing zone that employs mobile capturing reagents, strategically placed to separate interfering substances from the analyte, enhancing the reliability of the results.
Career Highlights
Marcus Scheibenzuber has worked with prominent companies in the field, including Rapid Pathogen Screening, Inc. and Quidel Corporation. His work there has greatly contributed to the advancement of diagnostic technologies, particularly in the realm of pathogen detection and analysis.
Collaborations
Throughout his career, Marcus has collaborated with notable individuals such as Franz Aberl and Robert W. VanDine. These partnerships have been pivotal in the development and refinement of his innovative inventions and patents.
Conclusion
Marcus Scheibenzuber’s contributions to the field of fluid sample analysis and immunoassays exemplify his commitment to improving diagnostic technologies. With five patents to his name, his work is set to make a lasting impact on the industry, paving the way for more accurate and reliable detection methods in medical diagnostics.