Mark S Borchert

Title: Mark S Borchert: Innovator in Non-Invasive Medical Technologies

Introduction

Mark S Borchert is a distinguished inventor based in La Canada, California. He has made significant contributions to the field of non-invasive medical technologies, particularly in the assessment of macular carotenoids and the analysis of the blood-brain barrier. With a total of 8 patents to his name, Borchert's work has the potential to revolutionize how medical assessments are conducted.

Latest Patents

Borchert's latest patents include a non-invasive in vivo method for measuring macular carotenoids. This method utilizes Optical Coherence Tomography (OCT) to assess the retina of a subject, generating a spatial representation of carotenoid levels in the macula. Another notable patent involves a non-invasive technique for analyzing blood-brain barrier dynamics. This method includes obtaining a Raman spectrum from a selected portion of the eye, allowing for the monitoring of changes in the blood-brain barrier. Additionally, Borchert has developed methods for determining the levels of various analytes, such as glucose and toxins, in the brain or blood. These methods involve generating an excitation laser beam and detecting the Raman spectrum from the illuminated portion of the eye.

Career Highlights

Throughout his career, Mark S Borchert has worked with prestigious institutions, including Children's Hospital Los Angeles and the California Institute of Technology. His innovative approaches have garnered attention in the medical community, paving the way for advancements in non-invasive diagnostic techniques.

Collaborations

Borchert has collaborated with notable professionals in his field, including James L Lambert. Their combined expertise has contributed to the development of groundbreaking technologies that enhance patient care and diagnostic accuracy.

Conclusion

Mark S Borchert's contributions to non-invasive medical technologies exemplify the impact of innovation in healthcare. His patents and collaborative efforts continue to push the boundaries of what is possible in medical diagnostics.