Karla Bergonzi

Title: Karla Bergonzi: Innovator in Wearable Optical Tomography

Introduction

Karla Bergonzi is a prominent inventor based in St. Louis, MO (US). She has made significant contributions to the field of wearable technology, particularly in the area of diffuse optical tomography. Her innovative work has the potential to enhance the understanding of brain activity through advanced imaging techniques.

Latest Patents

Karla holds a patent for a groundbreaking invention titled "Super-pixel detection for wearable diffuse optical tomography." This system includes a wearable head apparatus and an electronic console. The head apparatus is designed to receive resultant light from the head of a subject. The electronic console comprises a fiber array, a detector, and a computing device. The fiber array consists of multiple fibers that transport the resultant light received by the head apparatus. The detector features several super-pixels, each defined by a group of pixels from an array. Each super-pixel is linked to a fiber and is capable of generating multiple detection signals in response to the detected light. The computing device processes these signals to create a high density-diffuse optical tomography (HD-DOT) image signal that reflects the brain activity of the subject.

Career Highlights

Karla Bergonzi has established herself as a key figure in her field through her innovative research and development efforts. She is affiliated with Washington University, where she continues to advance her work in wearable technology and optical imaging. Her dedication to improving medical imaging techniques has garnered attention and respect within the scientific community.

Collaborations

Karla has collaborated with notable colleagues, including Joseph P. Culver and Adam T. Eggebrecht. These partnerships have further enriched her research and contributed to the advancement of technology in the field of diffuse optical tomography.

Conclusion

Karla Bergonzi is a trailblazer in the realm of wearable optical technology, with her patent for super-pixel detection marking a significant advancement in the understanding of brain activity. Her work at Washington University and collaborations with esteemed colleagues highlight her commitment to innovation and excellence in her field.