Daniel C Abrahamson

Title: The Innovations of Daniel C. Abrahamson in Prosthetic Technology

Introduction

Daniel C. Abrahamson, an inventive mind based in Seattle, Washington, has made significant strides in the field of prosthetics. With two patents to his name, Abrahamson is dedicated to improving the quality of life for individuals using prosthetic devices. His work focuses on developing innovative solutions that enhance prosthetic fitting and user comfort.

Latest Patents

Abrahamson's latest patent, titled "Measurement and Use of In-Socket Residual Limb Volume Change Data for Prosthetic Fitting," is a cutting-edge innovation that addresses the challenges faced by prosthetic users. This invention leverages bioimpedance measurements to assess changes in the volume of residual limbs, ensuring a more accurate and comfortable fit for prosthetics. By injecting a current at an appropriate frequency (ranging from 1 kHz to 1 MHz) through electrodes attached to the skin, Abrahamson's method measures the voltage between current electrodes. This data allows for the determination of segmented volume changes throughout different activities and time periods, ultimately facilitating better assessments of socket fit and providing feedback for volume management devices.

Career Highlights

Daniel C. Abrahamson’s career is marked by his association with the University of Washington, where he works alongside other notable experts in the field. His contributions to prosthetic technology represent a commitment to enhancing the functionality and comfort of prosthetic devices.

Collaborations

Abrahamson collaborates with esteemed colleagues such as Joan E. Sanders and Timothy Myers. Together, they work towards advancing research and practical applications in the realm of prosthetic technology, aiming to create a lasting impact on user experience and care.

Conclusion

In conclusion, Daniel C. Abrahamson stands out as a prominent figure in the innovation of prosthetic solutions. His latest patent showcases a blend of technical ingenuity and a profound understanding of user needs, paving the way for more responsive and adaptive prosthetic technologies. As the field progresses, Abrahamson's work at the University of Washington continues to inspire future advancements that will benefit many individuals seeking improved mobility and comfort through prosthetics.