Enter inventor name

Adrienne Campbell

USPTO Granted Patents = 5 (Patent Applications = 1)

Average Co-Inventor Count = 5.5

ph-index = 1

Forward Citations = 9(Granted Patents)

Location History:

Bethesda, MD (US) (2021 - 2022)
Washington, DC (US) (2024)

Company Filing History:

5 out of 3,539

The United States of America, As Represented by the Secretary, Department of Health and Human Services

patents

4 out of 2,339

Siemens Healthcare Gmbh

patents

2 out of 998

University of Virginia Patent Foundation

patents

4. 1 out of 42

Julius-maximilians-universitat Wurzburg

patents

where one patent can have more than one assignee

Years Active: 2021-2025

Loading Chart...

5 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 12487306 - System and method for variable-flip-angle 3D spiral-in-out TSE/space using echo-reordering and concomitant gradient compensation (2025-12-02),

2. 11860258 - Methods and systems for Maxwell compensation for spin-echo train imaging (2024-01-02),

3. 11301997 - Image registration and principal component analysis based multi-baseline phase correction method for proton resonance frequency thermometry (2022-04-12),

4. 11176717 - Guiding protocol development for magnetic resonance thermometry (2021-11-16),

5. 11112472 - Pre-emphasis techniques based on temperature dependent gradient system behavior for trajectory correction in magnetic resonance imaging (2021-09-07),

Title: Innovations by Adrienne Campbell

Introduction

Adrienne Campbell is a prominent inventor based in Bethesda, MD (US). She has made significant contributions to the field of medical imaging, particularly in magnetic resonance imaging (MRI). With a total of 5 patents, her work focuses on enhancing imaging techniques and reducing artifacts in MRI systems.

Latest Patents

Adrienne's latest patents include innovative methods and systems for Maxwell compensation for spin-echo train imaging. This technology involves computing devices and MRI systems that minimize artifacts produced by Maxwell gradient terms in TSE imaging using non-rectilinear trajectories. The process generates a radiofrequency (RF) excitation pulse to produce transverse magnetization, which in turn generates a nuclear magnetic resonance (NMR) signal. Additionally, she has developed an image registration and principal component analysis-based multi-baseline phase correction method for proton resonance frequency thermometry. This method allows for the acquisition of a series of MR images while monitoring temperature changes in the anatomical area of interest, ultimately yielding motion-corrected images and temperature difference maps.

Career Highlights

Throughout her career, Adrienne has worked with esteemed organizations such as Siemens Healthcare GmbH and the National Institutes of Health, a component of the US Department of Health & Human Services. Her experience in these institutions has allowed her to contribute to groundbreaking advancements in medical imaging technology.

Collaborations

Adrienne has collaborated with notable professionals in her field, including Waqas Majeed and Rainer Schneider. These partnerships have further enriched her research and development efforts.

Conclusion

Adrienne Campbell's innovative work in MRI technology exemplifies her dedication to improving medical imaging techniques. Her contributions continue to have a lasting impact on the field, enhancing diagnostic capabilities and patient care.

This text is generated by artificial intelligence and may not be accurate.

Please report any incorrect information to support@idiyas.com