Company Filing History:
Years Active: 2014
Title: Sandrine Mailler: Innovator in Bacterial Characterization
Introduction
Sandrine Mailler is a prominent inventor based in Courtenay, France. She has made significant contributions to the field of microbiology, particularly in the methods for inactivation and extraction of acid-fast bacteria. Her innovative approach has implications for the characterization and identification of these bacteria using mass spectrometry.
Latest Patents
Sandrine Mailler holds a patent titled "Methods for inactivation and extraction of acid-fast bacteria for characterization and/or identification using mass spectrometry." This invention outlines a method that includes several sequential steps. The process begins with acquiring a test sample known to contain or potentially contain acid-fast bacteria. The sample is then suspended in a container with ethanol and beads. Following this, bead beating and/or vortexing is performed to break up clumps and disrupt the bacteria cells. The suspension is incubated for at least three minutes at room temperature to inactivate any acid-fast bacteria present. Finally, the test sample can be pelleted by centrifugation, resuspended with formic acid, and subjected to mass spectrometry for further characterization and identification.
Career Highlights
Sandrine Mailler is currently employed at bioMérieux, Inc., a company renowned for its expertise in diagnostics and microbiological testing. Her work at bioMérieux has allowed her to apply her innovative methods in practical settings, contributing to advancements in the field.
Collaborations
Throughout her career, Sandrine has collaborated with notable colleagues, including Jones M Hyman and Parampal Deol. These collaborations have further enriched her research and development efforts.
Conclusion
Sandrine Mailler's contributions to the field of microbiology through her innovative patent demonstrate her commitment to advancing bacterial characterization techniques. Her work at bioMérieux, along with her collaborations, highlights her role as a key figure in this important area of research.