Company Filing History:
Years Active: 2007
Title: **Elena Ingal: Pioneer in X-ray Imaging Technology**
Introduction
Elena Ingal is an esteemed inventor based in Newark, Delaware, who has made significant contributions to the field of medical imaging. With her innovative approach, she has developed a patented technology that enhances the efficiency and safety of x-ray imaging systems.
Latest Patents
Elena holds one patent for her invention titled "Amorphous selenium flat panel x-ray imager for tomosynthesis and static imaging." This groundbreaking technology is designed to reduce ghosting effects and provide overvoltage protection through the unique characteristics of the thin-film transistor array. Her invention features a top electrode made of a suitable material that rests directly on an amorphous selenium-based charge generator layer. This design allows for improved charge transport, ultimately reducing ghosting artifacts in the imaging process. Moreover, the thin-film transistors exhibit a controlled leakage current that safeguards the device while maintaining high image quality.
Career Highlights
Elena works at Hologic, Inc., a leader in women's health and medical imaging technologies. Her work is instrumental in pushing the boundaries of how x-ray imaging can be performed with greater precision and safety, benefiting both healthcare professionals and patients alike.
Collaborations
Elena's contributions to her field are magnified through her collaborations with accomplished colleagues, including Lawrence Cheung and Snezana Bogdanovich. Together, they work on advancing x-ray technology, ensuring that innovations are practical and beneficial in real-world medical applications.
Conclusion
Elena Ingal stands out as a remarkable inventor whose work in developing the amorphous selenium flat panel x-ray imager exemplifies the spirit of innovation in medical technology. Her patent not only signifies a notable achievement in her career but also represents a leap forward in enhancing medical imaging practices that have the potential to improve patient outcomes and diagnostic accuracy.