Company Filing History:
Years Active: 2001-2004
Title: Innovations of James P. Tasto in Electrosurgical Techniques
Introduction
James P. Tasto, an inventive mind from San Diego, CA, has made significant contributions to the field of electrosurgery with a focus on promoting vascularization in connective tissues. With four patents to his name, Tasto has been at the forefront of innovations aimed at enhancing blood flow and healing in various tissues, particularly tendons.
Latest Patents
Tasto's latest patents include groundbreaking methods for electrosurgical tendon vascularization. These systems and apparatus facilitate improved blood flow to target tissues by creating channels or voids through avascular or sparsely vascular connective tissues, such as tendons or menisci. One of his notable inventions involves positioning an active electrode near a tendon site and applying a high-frequency voltage to selectively ablate tendon tissue, allowing for the formation of channels within the tissue. Another aspect of this invention utilizes an electrosurgical probe to stimulate the wound healing response in injured tendons, promoting vascularization during surgical repair procedures. Furthermore, his innovations also encompass the use of a template device to create specific patterns of voids and an electrosurgical device equipped with a self-contained fluid supply for optimal tissue conductivity.
Career Highlights
Throughout his career, James P. Tasto has collaborated with esteemed companies such as ArthroCare Corporation and BionX Implants. His work has contributed to the advancement of surgical techniques, particularly in enhancing recovery and healing processes for patients.
Collaborations
Tasto has worked alongside notable colleagues including Jean Woloszko and Philip E. Eggers. Their collaborations have been instrumental in developing and refining innovative solutions in the medical field, particularly those related to surgical assistance and tissue repair.
Conclusion
James P. Tasto's contributions to electrosurgical innovations demonstrate a commitment to improving medical techniques and patient outcomes. His patented methods not only show a deep understanding of tissue engineering but also a dedication to advancing the medical community's ability to treat complex injuries effectively. As he continues to innovate, the impact of his work will likely resonate within the fields of surgery and rehabilitation for years to come.