Ninell Pollas Mortensen

Title: Innovations of Ninell Pollas Mortensen

Introduction

Ninell Pollas Mortensen is an accomplished inventor based in Holly Springs, NC (US). She has made significant contributions to the field of cellular growth through her innovative patent. Her work focuses on developing methods and apparatuses that enhance the spatial control of cellular growth, which has important implications for various medical applications.

Latest Patents

Ninell Pollas Mortensen holds a patent for a "Method and apparatus for spatial control of cellular growth." This patent describes a three-dimensional cell growth containment article that includes a molded body channelized by the removal of sacrificial channelizing elements. The molded body contains one or more channels filled with a matrix material that supports three-dimensional cell growth. The method for creating these articles involves forming a molded body with sacrificial channelizing elements, which are subsequently removed. The applications of this technology are vast, including islet transplantation for diabetes treatment, transplantation of hormone-secreting cells, cellular scaffolds for wound healing, and tissue engineering structures for orthopedic applications.

Career Highlights

Ninell Pollas Mortensen is associated with the Research Triangle Institute, where she continues to advance her research and innovations. Her work has garnered attention for its potential to revolutionize the way cellular structures are generated and utilized in medical treatments.

Collaborations

Ninell has collaborated with notable colleagues, including Leah Marie Johnson and Ginger Denison Rothrock. These partnerships have contributed to the development and refinement of her innovative approaches in cellular growth.

Conclusion

Ninell Pollas Mortensen's contributions to the field of cellular growth through her patent demonstrate her commitment to advancing medical science. Her innovative methods have the potential to significantly impact various therapeutic applications, showcasing the importance of her work in the realm of biotechnology.