Company Filing History:
Years Active: 2007
Title: The Innovations of Tatiana Esakova in Troponin I Diagnosis
Introduction
Tatiana Esakova is an accomplished inventor based in Moscow, Russia, known for her contributions to the field of medical diagnostics. With a focus on improving the detection of troponin I, a critical biomarker for heart injury, Tatiana's work has significant implications for patient care and treatment.
Latest Patents
Tatiana holds one patent titled "Method and kit for the diagnosis of troponin I." This innovative invention outlines a method for assaying troponin I in samples such as serum. The process involves determining the troponin I concentration using a standard preparation that includes a complete native troponin complex. An exemplary assay method described in her patent is an immunoassay, which may include a step of contacting the sample with a calcium-binding agent. Furthermore, the invention comprises a standard preparation, a detectable label, and an anti-troponin I antibody, all designed for effective use with human materials.
Career Highlights
Tatiana is currently employed at Hytest Ltd., where she applies her expertise in diagnostics and collaborates on various innovative projects. Her extensive knowledge and dedication have played a crucial role in advancing the capabilities of the company in the medical diagnostics arena.
Collaborations
Throughout her career, Tatiana has worked alongside notable colleagues, including Alex G Katrukha and Sergei Severin. These collaborations have fostered a dynamic exchange of ideas and technological advancements, enabling her to contribute significantly to her field.
Conclusion
Tatiana Esakova exemplifies the essence of innovation in the realm of medical diagnostics. Through her patent on the method and kit for diagnosing troponin I, she has made strides in enhancing diagnostic accuracy, ultimately benefiting patient outcomes. As the medical field continues to evolve, Tatiana's work will likely remain influential in shaping future innovations in diagnostic technologies.