Company Filing History:
1 out of 832,880 Years Active: 2008
Title: The Innovative Contributions of Anne M Taylor
Introduction
Anne M Taylor is a prominent inventor based in San Marino, CA (US). She has made significant strides in the field of neuroscience through her innovative inventions. With a focus on microfluidic devices, her work has the potential to advance our understanding of neuronal behavior and interactions.
Latest Patents
Anne M Taylor holds a patent for a microfluidic device designed to enable fluidic isolation among interconnected compartments within the apparatus. The patent, titled "Microfluidic device for enabling fluidic isolation among interconnected compartments within the apparatus and methods relating to same," describes a device that integrates microfabrication, microfluidic, and surface micropatterning techniques. This multi-compartment neuronal culturing device is applicable across various neuroscience uses. The device allows for the directed growth of neurites while isolating them from their cell bodies. It utilizes hydrostatic pressure to contain insults within a specific compartment, thereby exposing localized areas of neurons to targeted conditions. The design ensures that insults remain contained in the neuritic compartment for an extended period, such as over 15 hours, due to the high resistance of the microgrooves for fluid transport.
Career Highlights
Throughout her career, Anne M Taylor has demonstrated a commitment to advancing scientific knowledge through her inventions. Her work has garnered attention for its innovative approach to neuronal culturing and its potential applications in neuroscience research.
Collaborations
Anne has collaborated with notable colleagues, including Noo Li Jeon and Carl W Cotman. These partnerships have contributed to the development and refinement of her inventions, enhancing their impact in the field.
Conclusion
Anne M Taylor's contributions to the field of neuroscience through her innovative microfluidic device exemplify the importance of creativity and collaboration in scientific research. Her work continues to pave the way for advancements in understanding neuronal behavior and interactions.