Company Filing History:
Years Active: 2016-2025
Title: Innovations by Inventor Jake Jolly
Introduction
Jake Jolly is a notable inventor based in Naples, FL (US), recognized for his contributions to surgical technology. He holds 2 patents that focus on advanced surgical fixation systems and tissue repair methods. His work has significantly impacted the field of surgery, providing innovative solutions for complex medical procedures.
Latest Patents
One of Jake Jolly's latest patents is for surgical fixation systems and associated methods. This patent relates to various combinations of fixation devices, soft suture constructs, and adjustable loops designed for use in knotless surgical methods. These methods include applications in syndesmosis, AC joint, UCL, bunion, anterior cruciate ligament (ACL), and posterior cruciate ligament (PCL) surgeries.
Another significant patent is for a drive system for tissue repair. This suture drive system assists in attaching sutures to tissue within a patient, particularly for repairing meniscal tears and shoulder tissue tears. The system is designed to be interchangeable, allowing it to adapt to different suture systems using the same device. It employs both inside-out and outside-in suture delivery methods, enhancing the versatility and effectiveness of surgical procedures.
Career Highlights
Jake Jolly is currently employed at Arthrex GmbH, a company renowned for its innovative medical devices and surgical solutions. His work at Arthrex has allowed him to develop and refine his patented technologies, contributing to advancements in surgical practices.
Collaborations
Jake collaborates with talented professionals in his field, including coworkers David C Koogle, Jr and Samuel Bachmaier. Their combined expertise fosters an environment of innovation and excellence in surgical technology.
Conclusion
Jake Jolly's contributions to surgical technology through his patents and work at Arthrex GmbH highlight his commitment to improving patient outcomes. His innovative solutions in surgical fixation and tissue repair continue to influence the medical field positively.