Company Filing History:
Years Active: 2000
Title: Melvin P. Ehrlich: Innovator in Female Fertility Monitoring
Introduction
Melvin P. Ehrlich is a notable inventor based in Roslyn Estates, NY (US). He has made significant contributions to the field of female fertility monitoring through his innovative patent. His work focuses on utilizing advanced technology to enhance the understanding of the female fertility cycle.
Latest Patents
Ehrlich holds a patent for an "Apparatus and method for monitoring ovulation." This invention presents a quantitative process for monitoring the female fertility cycle. The method involves directing a laser beam, preferably generated by a diode laser, onto an area of a slide containing an air-dried sample of female body fluid. The resulting diffraction pattern is detected by a two-dimensional photo diode array and analyzed by a microprocessor. If a ferning pattern exists, it generates a characteristic structure in the diffraction pattern, which is then detected by the photo diode array. Conversely, if no ferning occurs, the diffraction pattern will be structureless. The microprocessor is programmed with an algorithm to produce a quantitative index of ferning, indicating the ferning level. By measuring multiple spots on the sample, the microprocessor determines the final ferning level based on the test results of all spots, significantly increasing the reliability of the final test result.
Career Highlights
Melvin P. Ehrlich is associated with Seroptix, Inc., where he continues to develop innovative solutions in the field of fertility monitoring. His work has paved the way for more reliable and accurate methods of assessing female fertility.
Collaborations
Ehrlich has collaborated with notable coworkers, including Joseph M. Canter and Yongwu Yang, contributing to advancements in his field.
Conclusion
Melvin P. Ehrlich's contributions to the field of female fertility monitoring through his innovative patent demonstrate his commitment to enhancing reproductive health. His work continues to influence the industry and improve the understanding of fertility cycles.