Company Filing History:
Years Active: 2025
Title: Innovations by Chirag B Khatiwala
Introduction
Chirag B Khatiwala is a notable inventor based in San Diego, California. He has made significant contributions to the field of biomedical engineering, particularly in the development of engineered tissues for research purposes. With a total of two patents to his name, Khatiwala is recognized for his innovative approaches to modeling liver disorders and creating three-dimensional tissue constructs.
Latest Patents
Khatiwala's latest patents include "Engineered tissues for in vitro research uses, arrays thereof, and methods of making the same." This invention discloses living, three-dimensional tissue constructs designed for in vitro scientific and medical research, along with methods for their creation. Another significant patent is "Use of engineered liver tissue constructs for modeling liver disorders." This invention focuses on three-dimensional, engineered, bioprinted biological tissue constructs that exhibit liver disorders. It includes methods for creating these constructs and their application in assays, such as drug testing and molecular diagnostics, particularly in assessing therapeutic agents' ability to address liver disorders.
Career Highlights
Chirag B Khatiwala is currently employed at Organovo, Inc., a company known for its pioneering work in bioprinting and tissue engineering. His role at Organovo allows him to further his research and development efforts in creating innovative solutions for medical applications.
Collaborations
Khatiwala collaborates with several professionals in his field, including Sharon C Presnell and Deborah Lynn Greene Nguyen. These collaborations enhance the research and development processes, contributing to advancements in tissue engineering.
Conclusion
Chirag B Khatiwala's work exemplifies the intersection of innovation and medical research, particularly through his patented inventions that aim to improve in vitro research methodologies. His contributions are paving the way for future advancements in biomedical engineering.