Company Filing History:
7 out of 260 
7 out of 811 
Years Active: 2016-2024
Title: Yu-Hsiang Chang: A Pioneer in Cell Therapy Innovations
Introduction
Yu-Hsiang Chang, an accomplished inventor based in Kaohsiung, Taiwan, holds an impressive portfolio of seven patents. His groundbreaking work primarily focuses on developing advanced chimeric receptors that significantly enhance cell therapy applications in treating cancer and infectious diseases.
Latest Patents
Among Yu-Hsiang Chang's latest innovations is the invention of a chimeric receptor with NKG2D specificity, designed for use in cell therapy against cancer and infectious diseases. This innovative composition includes the components NKG2D, DAP10, and CD3 zeta. The invention outlines methods for producing this chimeric receptor, which aims to enhance the cytotoxicity and antitumor efficacy of natural killer (NK) cells. Furthermore, this invention encompasses the utilization of NKG2D-DAP10-CD3 zeta polypeptides, vectors, and cells in therapeutic approaches for treating cancer, proliferative disorders, and infectious diseases.
Career Highlights
Yu-Hsiang Chang has had an impactful career with significant contributions to the field of cellular therapy. He has worked with prestigious institutions such as St. Jude Children's Research Hospital and the National University of Singapore, where he has played a critical role in advancing research and innovation in cell-based therapies.
Collaborations
Throughout his career, Yu-Hsiang Chang has collaborated with notable individuals in the field. One of his key collaborators is Dario Campana, with whom he has worked closely to explore innovative approaches in cell therapy and enhance treatment modalities for critical health challenges.
Conclusion
Yu-Hsiang Chang's contribution to the field of immunotherapy through his innovative patents showcases his commitment to advancing medical science. His work not only aims to improve cancer treatment outcomes but also addresses infectious diseases, highlighting the transformative potential of his inventions in modern medicine.