Gabrielle Romain

Title: Gabrielle Romain: Innovator in Cellular Profiling

Introduction

Gabrielle Romain is a prominent inventor based in Houston, TX (US). She has made significant contributions to the field of cellular profiling, holding 2 patents that focus on innovative methods for evaluating cellular activity. Her work is instrumental in advancing our understanding of cellular dynamics and molecular profiling.

Latest Patents

One of Gabrielle's latest patents is titled "Integrated functional and molecular profiling of cells." This patent presents methods for evaluating cellular activity by placing a cell population on a designated area. The process involves assaying for dynamic behavior of the cell population over time, identifying specific cells of interest based on their behavior, and characterizing their molecular profiles. The dynamic behaviors assessed can include cellular activation, inhibition, interaction, protein expression, secretion, proliferation, and various other cellular activities. Sensors associated with the area may be utilized to facilitate the assaying process. The molecular profiles can be characterized through methods such as DNA analysis, RNA analysis, and protein analysis. The correlation of dynamic behavior and molecular profiles serves various purposes, including predicting clinical outcomes, screening cells, facilitating treatments, diagnosing diseases, and monitoring cellular activity.

Career Highlights

Gabrielle Romain is affiliated with the University of Houston System, where she continues to contribute to research and innovation in her field. Her work has garnered attention for its potential applications in clinical settings and research institutions.

Collaborations

Some of Gabrielle's notable coworkers include Navin Varadarajan and Ivan Liadi, who collaborate with her on various research projects.

Conclusion

Gabrielle Romain is a trailblazer in the field of cellular profiling, with her innovative patents paving the way for advancements in medical research and treatment methodologies. Her contributions are vital to the ongoing exploration of cellular dynamics and their implications in health and disease.