Company Filing History:
Years Active: 2004
Title: Innovations in Immunoassays by Daran Antony Sadler
Introduction
Daran Antony Sadler is a notable inventor based in Glasgow, GB, recognized for his significant contributions in the field of immunoassays. His innovative approach integrates advanced techniques to enhance the detection of target analytes, particularly in drug testing contexts.
Latest Patents
Sadler holds a patent for a groundbreaking invention titled "Immunoassays involving surface enhanced Raman scattering." This innovative technique utilizes immunoassay displacement methods to detect and identify the presence or quantity of a target analyte. The methodology comprises several steps, including the exposure of a sample to a complex involving an immobilized antibody bound to a displacement agent. Notably, this agent includes an analyte analog and a surface-enhanced Raman scattering (SERS) active label, enabling precise detection of analytes through a series of interactions that facilitate signal amplification.
Career Highlights
Daran Sadler's career is marked by his position at the University of Strathclyde, where he engages in cutting-edge research and development of immunoassay technologies. His work not only focuses on drug detection but extends to various applications, including explosive identification. The ability to detect multiple target analytes simultaneously from a single source is a significant advancement in his research domain.
Collaborations
Throughout his career, Sadler has collaborated with fellow researchers, including Peter Cyril White and Salah Athmani. These collaborations have played a crucial role in developing and refining his patented technologies, highlighting the importance of teamwork in driving innovation within scientific research.
Conclusion
Daran Antony Sadler's contributions to the field of immunoassays underscore the critical intersection of science and technology in modern diagnostics. His patent on surface enhanced Raman scattering methods represents a significant leap forward in detecting analytes, showcasing the potential of innovative approaches to address real-world challenges in health and safety.