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Search Results - peter+kellman
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Methods and Systems for Automatically Determining Magnetic Field Inversion Time of a Tissue Species
This technology includes a computer-implemented method for determining magnetic field inversion time of a tissue species using a T1-mapping image, information about the region of interest, and a tissue classification algorithm. This method includes T1-mapping image comprising a plurality of T1 values within an expected range of T1 values for the tissue...
Published: 8/12/2024
|
Inventor(s):
Bruce Spottiswoode
,
Xlaoguang Lu
,
Xiaoming Bi
,
Christopher Glielmi
,
Andreas Greiser
,
Hui Xue
,
Peter Kellman
Keywords(s):
Category(s):
Application > Diagnostics
,
Application > Software / Apps
,
Collaboration Sought > Licensing
,
ResearchProducts > Computational models/software
,
TherapeuticArea > Cardiology
Free Breathing Motion Corrected Pixel-wise MRI Myocardial T1 Parameter Mapping for Clinical Cardiac Imaging
This technology includes a method for performing cardiac imaging without the need for the patient to hold their breath. Free breathing pixel-wise myocardial T1 parameter mapping includes performing a free-breathing scan of a cardiac region at a plurality of varying saturation recovery times to acquire a k-space dataset; generating an image dataset based...
Published: 8/12/2024
|
Inventor(s):
Bruce Spottiswoode
,
Peter Kellman
Keywords(s):
Category(s):
Application
,
Application > Medical Devices
,
Application > Software / Apps
,
ResearchProducts > Computational models/software
,
ResearchProducts > Research Equipment
,
TherapeuticArea > Cardiology
General-purpose Deep Learning Image Denoising Based on Magnetic Resonance Imaging Physics
This technology includes a novel method to train deep learning convolution neural network model to improve the signal-noise-ratio for the magnetic resonance (MR) imaging. The novelty lies on the fact that actual MR imaging physics information is used in the deep learning training. The resulting model achieves significant signal-to-noise ratio (SNR)...
Published: 4/8/2024
|
Inventor(s):
Hui Xue
,
Peter Kellman
Keywords(s):
Category(s):
Application > Software / Apps
,
Collaboration Sought > Licensing
,
ResearchProducts > Computational models/software
Phase Sensitive Motion Correction and T1 Mapping for Cardiovascular Magnetic Resonance Imaging
This technology includes a method of correcting the motion during T1 mapping using cardiovascular magnetic resonance imaging (MRI). Ischemic heart disease is the leading cause of death in the United States. The lack of blood supply among myocardial tissue, especially for scar regions, changes the T1 relaxation value of heart muscles. The non-invasive...
Published: 8/12/2024
|
Inventor(s):
Peter Kellman
,
Hui Xue
Keywords(s):
Category(s):
Application > Medical Devices
,
Application > Software / Apps
,
Collaboration Sought > Licensing
,
ResearchProducts > Computational models/software
,
TherapeuticArea > Cardiology
Real Time Medical Image Processing Using Cloud Computing
The invention pertains to a system for reconstructing images acquired from MR and CT scanners in a robust Gadgetron based cloud computing system. A hardware interface connects clinical imaging instruments (e.g., MR or CT scanners) with a cloud computing environment that includes image data reconstruction and processing software not limited by the computational...
Published: 10/28/2024
|
Inventor(s):
Hui Xue
,
Peter Kellman
,
Michael Hansen
Keywords(s):
AD1XXX
,
AD2XXX
,
AD3XXX
,
Cloud
,
Computing
,
CT
,
DATA
,
Gadgetron
,
IMAGING
,
Listed LPM Shmilovich as of 4/15/2015
,
Magnetic Resonance
,
MEDICAL
,
MRI
,
Post LPM Assignment Set 20150420
,
Pre LPM working set 20150418
,
Processing
,
Raw
,
REAL-TIME
,
XFXXXX
,
XJXXXX
Category(s):
Collaboration Sought > Collaboration
,
Application > Software / Apps
,
ResearchProducts > Computational models/software
,
Application > Medical Devices
,
Application > Non-Medical Devices
,
Application > Diagnostics
Method and Apparatus to Improve an MRI Image
The invention is a method for improving image quality in MR imaging methods using the SENSE (SENSitivity Encoding) method, which is known to have degraded image quality due to numerical ill-conditioning (so called g-factor loss). The invention improves the numerical conditioning by means of an adaptive regularization (matrix conditioning), thereby improving...
Published: 10/28/2024
|
Inventor(s):
Peter Kellman
,
Elliot Mcveigh
Keywords(s):
AA3B1X
,
AA3BXX
,
AA3XXX
,
AAXXXX
,
ADXXXX
,
AXXXXX
Category(s):
Collaboration Sought > Licensing
Generalized MRI Artifact Reduction Using Array Processing Method
The invention is a phased array combining method for reducing artifacts in Magnetic Resonance (MR) imaging. The method uses a constrained optimization that optimizes signal-to-noise subject to the constraint of nulling ghost artifacts at known locations. The method is effective in reducing or canceling artifacts that arise in a wide variety of MR...
Published: 10/28/2024
|
Inventor(s):
Peter Kellman
,
Elliot Mcveigh
Keywords(s):
AAXXXX
,
ACXXXX
,
ADXXXX
,
AXXXXX
Category(s):
Collaboration Sought > Licensing
Adaptive Sensitivity Encoding Incorporating Temporal Filtering (TSENSE)
The invention is an accelerated magnetic resonance imaging method developed to reduce the total imaging time for gated, segmented cine imaging or to increase the frame rate when imaging dynamic activity, such as heart motion or brain activity. The invention combines temporal filtering (e.g., the UNFOLD method) with a known spatial sensitivity encoding...
Published: 10/28/2024
|
Inventor(s):
Peter Kellman
,
Elliot Mcveigh
Keywords(s):
AA3B1X
,
AA3BXX
,
AA3XXX
,
AAXXXX
,
AC2XXX
,
ACXXXX
,
AXXXXX
Category(s):
Collaboration Sought > Licensing
Lens with Electronically Controlled Optical Properties
Executive SummaryThis MSU-developed device allows for electrical control of the optical properties in a liquid lens and other optic devices. Capable of altering light’s focal point, this technology lends itself into many applications such as displays, microscopes, telescopes, interferometers, and many more. Description of TechnologyBy controlling...
Published: 8/20/2022
|
Inventor(s):
Gary Blanchard
,
Greg Swain
,
Romana Jarosova
,
Ke Ma
Keywords(s):
Category(s):
Advanced Materials
,
Chemicals
,
Devices
,
Photonics