Company Filing History:
Years Active: 2024
Title: The Innovative Contributions of Deniz Icingir
Introduction
Deniz Icingir is a notable inventor based in Kenmore, Washington. He has made significant contributions to the field of medical devices, particularly through his innovative accessories designed to enhance the functionality of defibrillators. His work aims to improve patient care by streamlining the use of medical equipment.
Latest Patents
Deniz Icingir holds one patent that focuses on medical device accessories. This patent describes various accessories for a medical device, such as a defibrillator, which are designed to reduce delays in treating or monitoring patients. The accessories increase the efficiency and ease of use of the medical device. One of the key features is an adjustable kickstand that can be moved between a collapsed and extended position, allowing the medical device to be reclined. In this reclined position, the display of the medical device is more easily viewed by the user. Additionally, storage bags can be coupled to the medical device for efficient storage of accessories. These stored accessories can be connected to the medical device while still within the storage bags. A port guard is also included to protect the connection between a cable and a port of the medical device, preventing disconnections.
Career Highlights
Deniz Icingir is currently employed at Physio-Control, Inc., where he continues to develop innovative solutions in the medical device industry. His work at the company reflects his commitment to improving medical technology and patient outcomes.
Collaborations
Deniz collaborates with talented individuals such as Christopher G. Alviar and Jeremy Edward Brummett. Their teamwork contributes to the advancement of medical device technology and enhances the overall effectiveness of their innovations.
Conclusion
Deniz Icingir's contributions to medical device accessories demonstrate his dedication to improving patient care through innovation. His patent reflects a thoughtful approach to enhancing the usability of critical medical equipment.