Company Filing History:
Years Active: 1993
Title: Carsten Stabell: Innovator in Electromyography Technology
Introduction
Carsten Stabell is a notable inventor based in Bronshoj, Denmark. He has made significant contributions to the field of electromyography and nerve conduction testing. With a total of 2 patents, Stabell's work focuses on improving the technology used in medical diagnostics.
Latest Patents
Stabell's latest patents include innovative disposable electrodes designed for electromyography (EMG) and nerve conduction velocity testing. These electrodes feature a tab for connection to a cable connector and are constructed from multiple layers, including first and second outer layers. The first layer serves as a backing member with exposed adhesive, while a hydrogel layer is situated between the outer layers, and a conductive foil layer is positioned between the hydrogel layer and the second outer layer. The electrodes can take various forms, including disc electrodes, ground electrodes, or elongated flexible digital ring electrodes. Notably, the disc electrode consists of two identical elements that are separably joined at a central portion, with the tabs of each element positioned away from the center. Additionally, Stabell has developed a kit that contains a variety of disposable electrodes packaged in a blister pack, which includes multiple disc electrodes, ground electrodes, and elongated flexible digital ring electrodes.
Career Highlights
Carsten Stabell is currently associated with Vickers, Inc., where he continues to innovate in the field of medical technology. His work has been instrumental in advancing the capabilities of diagnostic tools used in healthcare settings.
Collaborations
Stabell has collaborated with notable colleagues, including Alan J Schaefer and Arthur Blumenfeld, contributing to the development of cutting-edge medical devices.
Conclusion
Carsten Stabell's contributions to electromyography technology through his innovative patents highlight his role as a key figure in medical diagnostics. His work continues to impact the field positively, enhancing the accuracy and efficiency of nerve conduction testing.