Natasha Bolick

Title: Innovations by Natasha Bolick

Introduction

Natasha Bolick is an accomplished inventor based in Creedmoor, North Carolina. She has made significant contributions to the field of biomedical engineering, particularly in the development of advanced fluorescence sensors. With a total of two patents to her name, her work is paving the way for innovative medical technologies.

Latest Patents

Natasha's latest patents focus on in vivo fluorescence sensors, systems, and related methods that operate in conjunction with fluorescent analytes. These patents detail methods, systems, devices, and computer program products that include administering a fluorescent analyte to a subject, repetitively emitting excitation light from an implanted sensor, and detecting fluorescence intensity in response to the excitation light. The data associated with the detected fluorescence intensity can be used to perform various functions, such as calculating the concentration or dose of the analyte, evaluating pharmacodynamic or pharmacokinetic activity, confirming antibody attachment to tumor sites, and monitoring non-target sites to ensure they are not adversely affected by therapy. Additionally, the technology allows for the monitoring of changes in cellular properties and the adjustment of therapeutic amounts of the analyte administered to the subject.

Career Highlights

Natasha Bolick is currently employed at Sicel Technologies, Inc., where she continues to innovate in the field of medical technology. Her work is characterized by a commitment to improving patient outcomes through advanced monitoring techniques.

Collaborations

Natasha collaborates with Robert D. Black, who is also involved in the development of innovative technologies at Sicel Technologies, Inc. Their partnership exemplifies the collaborative spirit that drives advancements in the biomedical field.

Conclusion

Natasha Bolick's contributions to the field of biomedical engineering through her innovative patents and collaborative efforts highlight her role as a leading inventor. Her work in developing in vivo fluorescence sensors is set to make a significant impact on medical diagnostics and treatment.