Corin Williams

Title: Corin Williams: Innovator in Biomedical Engineering

Introduction

Corin Williams is a notable inventor based in Framingham, MA (US). He has made significant contributions to the field of biomedical engineering, holding a total of 3 patents. His work focuses on developing innovative systems and methods that enhance the understanding of biomechanical effects on cultured tissues.

Latest Patents

Williams' latest patents include a highly deformable porous membrane culture system and actuation methods for studying the effects of biomechanical stretch on cultured tissue. This invention provides a well plate that includes a first opening designed to receive an insert coupled to a deformable membrane. The well plate is equipped with a gasket that creates a seal between the insert and the well, ensuring proper functionality. Additionally, it features a chamber beneath the well that receives fluid media, exposing it to the surface of the deformable membrane. An actuator is also included to stretch the membrane by a target amount of strain.

Another significant patent is the growth adaptive expandable stent. This stent features a cylindrical shape that is self-expanding in a radial direction. It includes multiple cylindrical rings along its longitudinal axis, designed to exert a continuous outward radial force over time when implanted. This allows the diameter of the stent to expand from a first value to a second value that is at least 1.5 times the first value.

Career Highlights

Corin Williams is currently employed at the Charles Stark Draper Laboratory, Inc. His work there has been instrumental in advancing technologies that address critical challenges in biomedical applications.

Collaborations

Williams collaborates with talented individuals such as Jesse M Carr and Brett C Isenberg, contributing to a dynamic research environment that fosters innovation.

Conclusion

Corin Williams exemplifies the spirit of innovation in biomedical engineering through his patents and contributions to the field. His work continues to pave the way for advancements that can significantly impact medical technology and patient care.