Silke Pschibl

Title: Silke Pschibl: Innovator in Medical Technology

Introduction

Silke Pschibl is a prominent inventor based in Rangendingen, Germany. She has made significant contributions to the field of medical technology, particularly in the development of angioplasty balloons. With a total of 4 patents to her name, her work has advanced the capabilities of medical devices used in vascular procedures.

Latest Patents

One of her latest patents is a method of reducing the rigidity of angioplasty balloon sections. This innovative approach involves fabricating a dilatation balloon through a process that creates cavities and indentations in the balloon and catheter sections. The method includes axially elongating and radially expanding a length of tubing to achieve the necessary biaxial orientation and strength. An excimer laser or other material removal tools are utilized to eliminate polymeric material with minimal thermal effects. This technique allows for a thinner, more flexible bonding area between the catheter shaft and the balloon, enhancing maneuverability in complex vascular pathways. Another notable patent is a method of producing a balloon for a balloon catheter, which involves creating folds in the distal sleeve and stabilizing these folds to improve functionality.

Career Highlights

Silke Pschibl has worked with notable companies in the medical field, including Abbott Laboratories and Abbott Laboratories Vascular Enterprises Limited. Her experience in these organizations has allowed her to refine her skills and contribute to groundbreaking advancements in medical technology.

Collaborations

Throughout her career, Silke has collaborated with talented professionals, including Judith Hartwig and Boris Warnack. These partnerships have fostered innovation and have been instrumental in the development of her patented technologies.

Conclusion

Silke Pschibl's contributions to medical technology, particularly in the design and production of angioplasty balloons, have made a significant impact on the field. Her innovative methods and collaborative efforts continue to advance the capabilities of medical devices, improving patient outcomes in vascular treatments.