Elizabeth Ellen Marr

Title: Innovations of Elizabeth Ellen Marr

Introduction

Elizabeth Ellen Marr is an accomplished inventor based in Brookline, MA (US). She has made significant contributions to the field of biomedical engineering, particularly in the development of systems that enhance the study of cultured tissue. Her innovative work has led to the creation of a unique patent that addresses critical challenges in tissue engineering.

Latest Patents

Elizabeth holds a patent for a "Highly deformable porous membrane culture system and actuation methods for studying the effects of biomechanical stretch on cultured tissue." This patent describes systems and methods that provide highly deformable porous membrane culture systems. These systems are designed to study the effects of biomechanical stretch on cultured tissue. The well plate includes a first opening configured to receive an insert coupled to a deformable membrane. Additionally, it features a gasket that creates a seal between the insert and the well. The chamber beneath the well is designed to receive fluid media, exposing it to the surface of the deformable membrane. An actuator is included to stretch the membrane by a target amount of strain. Elizabeth's innovative approach has the potential to advance research in tissue engineering significantly.

Career Highlights

Elizabeth is currently employed at The Charles Stark Draper Laboratory, Inc., where she continues to push the boundaries of biomedical research. Her work at Draper has allowed her to collaborate with other talented professionals in the field, further enhancing her contributions to innovation.

Collaborations

Some of Elizabeth's notable coworkers include Brett C. Isenberg and Joseph L. Charest. Their collaborative efforts have fostered an environment of innovation and creativity, leading to advancements in their respective fields.

Conclusion

Elizabeth Ellen Marr is a pioneering inventor whose work in biomedical engineering is making a significant impact. Her patent for a highly deformable porous membrane culture system exemplifies her commitment to advancing tissue engineering research. Through her career at The Charles Stark Draper Laboratory, Inc., she continues to inspire and innovate in the field.