Location History:
- Ellicott City, MD (US) (2017 - 2020)
- Ridgewood, NJ (US) (2021)
Company Filing History:
Years Active: 2017-2021
Title: Innovations by Inventor Xiao Mo
Introduction
Xiao Mo is an accomplished inventor based in Ellicott City, MD (US). He has made significant contributions to the field of microbiology through his innovative methods for identifying microorganisms. With a total of 3 patents, his work has the potential to greatly impact clinical decision-making in healthcare.
Latest Patents
One of Xiao Mo's latest patents focuses on the identification of microorganisms using MALDI-TOF-MS on-plate extraction. This rapid method identifies sepsis-causing bacteria or yeast, aiding physicians in critical therapeutic decision-making and ultimately decreasing patient mortality rates. The method involves plating microorganisms directly onto a MALDI-MS plate, adding concentrated formic acid, and identifying the microorganism by mass spectrometry. Additionally, an organic solvent may be combined with the formic acid or added to the sample before or after the concentrated formic acid is introduced. This innovative approach enables direct extraction of proteins from microorganisms without the need for liquid protein extraction methods, yielding positive identification results for gram-positive bacteria, gram-negative bacteria, and yeast in just minutes.
Career Highlights
Xiao Mo is currently employed at Becton Dickinson and Company Limited, where he continues to develop and refine his innovative techniques. His work is crucial in enhancing the speed and accuracy of microbial identification, which is vital in clinical settings.
Collaborations
Xiao Mo collaborates with talented coworkers, including Liping Feng and William B Brasso. Their combined expertise contributes to the advancement of research and development in the field of microbiology.
Conclusion
Xiao Mo's innovative contributions to the identification of microorganisms demonstrate his commitment to improving healthcare outcomes. His patents reflect a significant advancement in rapid diagnostic methods, which can lead to better patient care and reduced mortality rates.