Company Filing History:
Years Active: 2017
Title: **Celina Lasota: Innovator in Pharmaceutical Chemistry**
Introduction
Celina Lasota is a prominent inventor based in White Plains, NY, known for her contributions to pharmaceutical chemistry. Her innovative work centers around the modulation of RORC, a crucial target in the treatment of various diseases. With a keen understanding of chemical compounds and their therapeutic applications, Celina has made significant strides in her field.
Latest Patents
Celina holds a notable patent for her invention titled "Compounds as modulators of RORC." This patent encompasses compounds of a specific formula suitable for the modulation of RORC, highlighting their potential in treating diseases associated with RORC modulation. The invention also details processes for synthesizing these compounds and the pharmaceutical preparations containing them.
Career Highlights
Celina is actively engaged in her professional career at Boehringer Ingelheim International GmbH, a leading global pharmaceutical company. Her research focuses on developing innovative solutions that improve patient outcomes through novel therapeutic approaches. Her unique expertise in pharmacology and chemical engineering sets her apart as a leading figure in her industry.
Collaborations
Throughout her career, Celina has collaborated with distinguished colleagues, including Brian Nicholas Cook and John D Huber. These collaborations have fostered a creative environment, leading to breakthroughs in pharmaceutical development and enhancing the efficacy of treatments available to patients.
Conclusion
Celina Lasota's contributions to the field of pharmaceutical chemistry exemplify the spirit of innovation that drives advancements in healthcare. Her work on RORC-modulating compounds holds promise for the treatment of complex diseases, marking her as a key inventor in the ongoing quest for innovative medical solutions. As she continues her research at Boehringer Ingelheim, Celina is set to influence the future of pharmaceutical science significantly.