Company Filing History:
Years Active: 2023-2025
Title: The Innovative Contributions of Ishita Tyagi
Introduction
Ishita Tyagi is a prominent inventor based in Santa Clara, California. She has made significant strides in the field of medical technology, particularly in the development of reusable surgical instruments. With a total of two patents to her name, her work is paving the way for advancements in minimally invasive surgical procedures.
Latest Patents
Ishita's latest patents focus on a reusable minimally invasive surgical instrument. This innovative design includes a reusable tip that features an end effector, a two-part hub, and a yoke. The end effector is designed with one or more movable portions, allowing it to transition between open and closed positions through manipulation of the yoke within the hub. The hub consists of a proximal hub and a distal hub that are coupled together. The end effector is attached to the distal hub, which is constructed from a metal to ensure high strength and a secure shape. The proximal hub is made from an autoclavable insulation material, which maintains a removable coupling with a control shaft. Specifically, the proximal hub is crafted from polyetheretherketone (PEEK), enhancing its durability and functionality.
Career Highlights
Ishita Tyagi has established herself as a key player in the medical device industry through her work at Microline Surgical, Inc. Her contributions have been instrumental in advancing surgical technology, particularly in the realm of minimally invasive procedures.
Collaborations
Ishita collaborates with talented professionals in her field, including Mark Bourgeault and Shekhar Nimkar. These partnerships enhance her innovative efforts and contribute to the development of cutting-edge medical solutions.
Conclusion
Ishita Tyagi's work exemplifies the spirit of innovation in the medical technology sector. Her patents and contributions are set to make a lasting impact on surgical practices, improving patient outcomes and advancing the field of minimally invasive surgery.