Company Filing History:
Years Active: 1994
Title: Herbert R. Salisbury: Innovator in Physiologic Event Validation
Introduction
Herbert R. Salisbury is a notable inventor based in Beaverton, OR (US). He has made significant contributions to the field of vital signs monitoring through his innovative methods. His work focuses on improving the accuracy of monitoring physiologic events related to heartbeats.
Latest Patents
Herbert R. Salisbury holds a patent for a "Method of validating physiologic events resulting from a heartbeat." This patent describes an improved method for validating pulse-like, heartbeat-induced physiologic events, such as blood-pressure pulses. The method is particularly relevant to vital signs monitoring apparatus that can also monitor R-waves obtained from an ECG sensor. It includes steps for monitoring the occurrence of an R-wave followed by an event of interest, and validating such events based on a time relationship between the R-wave and the event. The process involves noting the time period between selected points of the two occurrences and labeling the time period based on preselected timing criteria. Events that require further validation are categorized for future review. The method also allows for the adaptation of timing criteria based on previously analyzed time relationships.
Career Highlights
Herbert R. Salisbury is associated with Protocol Systems, Inc., where he applies his expertise in the development of medical monitoring technologies. His innovative approach has contributed to advancements in the accuracy and reliability of health monitoring systems.
Collaborations
He has collaborated with notable colleagues, including Lee A. Taylor and Ronald G. Bennett, to further enhance the capabilities of their projects and innovations.
Conclusion
Herbert R. Salisbury's contributions to the field of physiologic event validation demonstrate his commitment to improving health monitoring technologies. His innovative methods continue to influence the way vital signs are monitored and validated in medical settings.