Company Filing History:
Years Active: 2012-2014
Title: The Innovative Contributions of Rebekah Lynn Gundry in Biomedical Engineering
Introduction
Rebekah Lynn Gundry, an accomplished inventor based in Baltimore, MD, has made significant strides in the field of biomedical engineering. With two patents to her name, she is recognized for her dedication to advancing diagnostic methods and improving the healthcare landscape through innovative solutions.
Latest Patents
Gundry's latest patents reflect her focus on biomarkers and mass spectrometry. The first patent, titled "Albumin-bound protein/peptide complex as a biomarker for disease - Methods and kits for diagnosis and prognosis using biomarkers comprising albumin-bound protein/peptide complex (ABPPC)," presents a novel approach for utilizing albumin-bound complexes in diagnostic testing. The second patent, "Peptide antibody depletion and its application to mass spectrometry sample preparation," involves a method for preparing samples for mass spectrometry analysis by cleaving proteins into peptides and immunodepleting certain peptides to enhance analysis efficiency. Both inventions indicate her commitment to improving disease diagnostics through innovative methodologies.
Career Highlights
Rebekah Lynn Gundry is affiliated with The Johns Hopkins University, a prominent institution known for its research excellence. Her work within this institution has positioned her at the forefront of biomedical innovation.
Collaborations
Throughout her career, Gundry has collaborated with notable researchers including Jennifer E Van Eyk and David Raymond Graham. These partnerships highlight her ability to work effectively within multidisciplinary teams to advance scientific knowledge and application.
Conclusion
Rebekah Lynn Gundry's contributions to the fields of biomarker development and mass spectrometry illustrate her role as a leading inventor in biomedical engineering. Her innovative patents and collaborative efforts continue to pave the way for advancements in diagnostic methodologies, ultimately enhancing patient care and treatment outcomes.