Yanping He

Title: **Innovative Contributions of Yanping He in the Field of Pharmaceuticals**

Introduction

Yanping He is a notable inventor based in Kunming, China, recognized for her significant contributions to the pharmaceutical sector. With a total of two patents to her name, Yanping has been instrumental in developing compounds that show promise in treating viral infections, particularly those related to HIV.

Latest Patents

Yanping He's latest patents focus on innovative pharmaceutical compounds. The first patent, titled "Pyrimidinone-containing compound, preparation method thereof, pharmaceutical composition and application thereof," discloses a pyrimidinone-containing compound that serves as an HIV-1 inhibitor. This compound can be effectively utilized in the treatment of human immunodeficiency virus infections.

The second patent is titled "DACOS type NNRTIs amino acid ester derivative, preparation method thereof, pharmaceutical composition, and application thereof." This patent details a DACOs-type NNRTIs amino acid ester derivative, which can also function as an HIV-1 inhibitor, aiding in the preparation of drugs aimed at treating and/or preventing immunodeficiency viruses.

Career Highlights

Throughout her distinguished career, Yanping He has been associated with reputable institutions such as Yunnan University and the Chinese Academy of Sciences. Her work at these institutions has allowed her to leverage academic research into practical applications, contributing greatly to the field of pharmaceutical sciences.

Collaborations

In her journey, Yanping has collaborated with esteemed colleagues like Hongbin Zhang and Yongtang Zheng. These professional relationships have facilitated knowledge exchange and innovation, enhancing the impact of her inventions in the scientific community.

Conclusion

Yanping He's innovative approaches to developing pharmaceutical compounds, evidenced by her patents, highlight her role as a significant inventor in the ongoing fight against viral infections. Her contributions not only advance scientific knowledge but also pave the way for potential therapeutic solutions for patients worldwide.