Company Filing History:
Years Active: 1998
Title: The Innovative Contributions of Nicole Bloom
Introduction
Nicole Bloom is a prominent inventor based in San Francisco, CA. She has made significant strides in the field of biotechnology, particularly in the development of systems for culturing biological materials. Her work is characterized by a commitment to advancing the capabilities of tissue engineering and cell culture technologies.
Latest Patents
Nicole Bloom holds a patent for an "Apparatus for the large scale growth and packaging of cell suspensions." This innovative apparatus is designed for the large-scale culturing and packaging of cell suspensions, three-dimensional tissue, and other biological systems. The apparatus features a plurality of flexible or semi-flexible treatment chambers, which include individual culture pockets, rigid spacers, an inlet fluid manifold, an outlet fluid manifold, and a fluid reservoir. This design allows for efficient transport of liquid media, ensuring even distribution and removal of air bubbles during treatment. The flexibility of the treatment chambers facilitates easy handling during the application of cultured transplants.
Career Highlights
Nicole Bloom is currently employed at Advanced Tissue Sciences, Inc., where she continues to push the boundaries of tissue engineering. Her innovative approach and dedication to her work have positioned her as a key figure in her field. With a patent to her name, she exemplifies the spirit of innovation that drives advancements in biotechnology.
Collaborations
Nicole has collaborated with notable colleagues, including Christine Kurjan and Mark A Applegate. These partnerships have contributed to her success and the development of groundbreaking technologies in the field.
Conclusion
Nicole Bloom's contributions to biotechnology through her innovative patent and work at Advanced Tissue Sciences, Inc. highlight her role as a leading inventor in the industry. Her dedication to improving cell culture technologies is paving the way for future advancements in tissue engineering.