Company Filing History:
Years Active: 2021
Title: Christopher J L Silwood: Innovator in Antimicrobial Solutions
Introduction
Christopher J L Silwood is a notable inventor based in Middlesex, GB. He has made significant contributions to the field of antimicrobial agents, particularly in the treatment and prevention of oral diseases. His innovative approach focuses on the generation of chlorine dioxide, a compound known for its effectiveness against various microorganisms.
Latest Patents
Silwood holds a patent for a composition and method for the generation of chlorine dioxide from the oxidative consumption of biomolecules. This invention details the use of stabilized chlorine dioxide as an antimicrobial agent against oral microorganisms, specifically targeting halitosis and the prevention of oral diseases. The method allows for rapid activation and release of chlorine dioxide, which occurs without an induction period. It also emphasizes the oxidative reduction of amino acids and volatile sulfur compound precursors, generating twice the available chlorine dioxide gas compared to traditional methods. The preferred concentrations of stabilized chlorine dioxide in this invention range from 0.005% to 2.0% (w/v), with the pH initially lowered by a citrate and stabilized by a peroxy compound.
Career Highlights
Christopher J L Silwood is associated with Micropure, Inc., where he continues to develop innovative solutions in the field of antimicrobial agents. His work has garnered attention for its practical applications in improving oral health.
Collaborations
Silwood has collaborated with notable colleagues, including Martin C Grootveld and James L Ratcliff. Their combined expertise has contributed to the advancement of research in antimicrobial solutions.
Conclusion
Christopher J L Silwood is a pioneering inventor whose work in the generation of chlorine dioxide has the potential to significantly impact oral health. His innovative methods and collaborations highlight the importance of research in developing effective antimicrobial agents.