Company Filing History:
Years Active: 2024
Title: Innovations by Noah Trac in Biocompatible Brain Electrode Placement
Introduction
Noah Trac is an innovative inventor based in Covina, CA (US). He has made significant contributions to the field of medical technology, particularly in the placement of biocompatible brain electrodes. His work is crucial for advancing surgical procedures that involve the brain.
Latest Patents
Noah Trac holds a patent for a "Coupled annulus and catheter system for placement of biocompatible brain electrodes and like devices." This system is designed for the precise placement of biocompatible electrodes in openings formed in a patient's body part, such as during the insertion of deep brain stimulation (DBS) electrodes into the skull. The innovative system includes a coupled catheter and annulus, where the catheter features a guide tube with at least three cooperating guide elements. These elements fit together to form a continuous lumen that accommodates the electrode. The annulus is strategically placed in the opening of the patient's body part, allowing the catheter to pass through it. A track mechanism effectively couples the catheter to the annulus, enhancing the overall functionality of the system.
Career Highlights
Noah Trac's career is marked by his dedication to improving medical procedures through innovative technology. His patent reflects his commitment to enhancing surgical techniques and patient outcomes. Working at Brown University, he has been able to collaborate with leading experts in the field.
Collaborations
Noah has worked alongside talented colleagues, including Wael Farouk Asaad and Shane Lee. Their combined expertise contributes to the advancement of medical technologies and innovative solutions in healthcare.
Conclusion
Noah Trac's contributions to the field of biocompatible brain electrode placement demonstrate his innovative spirit and commitment to improving medical procedures. His patent showcases the potential for enhanced surgical techniques that can lead to better patient outcomes.