Company Filing History:
Years Active: 2017-2025
Title: Innovations by Erik Delly in Ablation Therapy
Introduction
Erik Delly is an accomplished inventor based in Cambridge, MA, known for his significant contributions to medical technology. He holds four patents that focus on devices and methods for enhancing ablation therapy. His work aims to improve the precision and effectiveness of medical procedures involving tissue ablation.
Latest Patents
One of Erik Delly's latest patents is titled "Devices and methods for delivering fluid to tissue during ablation therapy." This patent describes an exemplary device that includes an elongate body with an inner lumen, outlet ports, and an ablation element designed to heat tissue. The design features a flow resistance that increases along the length of the body, allowing for more uniform fluid distribution or a desired non-uniform distribution.
Another notable patent is "Selectively deployable catheter ablation devices." This invention addresses the issue of unintentional deployment of catheter instruments during use. The device includes an instrument that is slidably disposed within the catheter's inner lumen, coupled to a retraction stop and a biasing element. These features enhance the precision of instrument deployment and prevent accidental damage to tissue.
Career Highlights
Erik Delly has made significant strides in the field of medical devices through his work at Thermedical, Inc. His innovative designs and patents have contributed to advancements in ablation therapy, making procedures safer and more effective for patients.
Collaborations
Erik collaborates with notable colleagues, including Michael G Curley and Gregory R Eberl. Their combined expertise fosters a creative environment that drives innovation in medical technology.
Conclusion
Erik Delly's contributions to the field of ablation therapy through his patents and collaborative efforts highlight his role as a leading inventor in medical technology. His work continues to influence the development of safer and more effective medical devices.