Company Filing History:
Years Active: 1992-1998
Title: McClellan M Walther: Innovator in Medical Light Measurement Technologies
Introduction
McClellan M Walther is a notable inventor based in Gaithersburg, MD (US). He has made significant contributions to the field of medical technology, particularly in the measurement of incident light in body cavities. With a total of 4 patents to his name, Walther's work has implications for phototherapy treatments.
Latest Patents
Walther's latest patents include a "Method for measuring incident light in a body cavity" and a "Device for measuring incident light in a body cavity." The first patent describes an obturator designed to measure incident light in remote sites, such as body cavities. This device includes a treatment tubular member for delivering light and auxiliary tubular members for transmitting incident light to an external detector. The design allows for the insertion of a cystoscope lens while maintaining alignment with the obturator's central axis. This apparatus has shown promise in conducting phototherapy for superficial cancer in the bladder. The second patent similarly outlines a device that utilizes a central tubular member and auxiliary members to measure incident light, reinforcing its utility in phototherapy applications.
Career Highlights
Walther is associated with the United States of America as represented by the Department of Health. His work has been instrumental in advancing medical technologies that enhance treatment options for patients. His innovative designs have paved the way for improved methodologies in phototherapy.
Collaborations
Walther has collaborated with notable colleagues such as Thomas F DeLaney and Frank S Harrington. Their combined expertise has contributed to the development of effective medical devices.
Conclusion
McClellan M Walther's contributions to medical technology through his patents demonstrate his commitment to improving patient care. His innovative approaches to measuring incident light in body cavities have significant implications for the future of phototherapy treatments.