C Michael Gosnell

Title: C Michael Gosnell: Innovator in Microbiological Culture Technologies

Introduction

C Michael Gosnell is a notable inventor based in Fallston, MD (US), recognized for his contributions to microbiological culture technologies. With a total of 4 patents, he has made significant advancements in methods for differentiating microorganisms and improving sample collection devices.

Latest Patents

Gosnell's latest patents include a method for differentiating microorganisms in a sample using culture media that contain blood or hemin. This innovative approach combines Trypticase Soy Agar with blood and chocolate agar, utilizing known chromogenic substrates to produce effective chromogenic media. The methods described involve adding chromogenic substrates to the surface of prepared media or incorporating them during the media preparation process. Additionally, he has developed a polyurethane biological sample collection and transport device that maintains viable organisms longer than existing sampling devices. This device allows for the recovery of detectable antigens at levels not achievable with conventional swabs. It features a sterile swabbing tip made from non-toxic polyurethane foam with open cells, eliminating the need for a transport medium and enabling dry use.

Career Highlights

C Michael Gosnell is currently associated with Becton Dickinson and Company Limited, where he continues to innovate in the field of microbiology. His work has significantly impacted the efficiency and effectiveness of microbiological specimen collection and transport.

Collaborations

Throughout his career, Gosnell has collaborated with notable colleagues, including James F Monthony and David T Stitt, contributing to advancements in microbiological technologies.

Conclusion

C Michael Gosnell's innovative work in microbiological culture technologies has led to significant advancements in the field. His patents reflect a commitment to improving methods for microorganism differentiation and specimen collection, showcasing his impact on microbiology.