Search Results - elliott+mcveigh

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Quantitative Tissue Property Mapping for Real-time Tumor Detection and Interventional Guidance

AbstractReal-Time, Interventional Guidance for Tumor Detection and ExcisionJHU REF: C12934 Invention Novelty: A novel optical method for the identification and differentiation of tumor versus non-tumor tissue with direct visual cue for use in real-time, continuous and noninvasive guidance for tumor excision. Value Proposition: Approximately 13,000 brain...

Published: 3/13/2025 | Inventor(s): Jiefeng Xi, Alfredo Quinones-Hinojosa, Elliott Mcveigh, Kaisorn Chaichana, Carmen Kut, Xingde Li

Keywords(s): Cancers, Disease Indication, Image Processing Software, Image Reconstruction Software, Imaging and Sensing Systems, Imaging Modality, In Vivo Medical Imaging, Interventional and Surgical Systems, Optical Coherence Tomography (OCT), Surgical Navigation

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Oncology, Technology Classifications > Computers, Electronics & Software > Image Processing & Analysis, Technology Classifications > Medical Devices > Imaging, Technology Classifications > Medical Devices > Surgical, Technology Classifications > Computers, Electronics & Software, Technology Classifications > Medical Devices

An Imaging Toolbox for Guiding Cardiac Resynchronization Therapy Implantation from Patient-Specific Computed Tomography and Body Surface Potential Mapping Data

Guiding Cardiac Resynchronization Therapy ImplantationJHU REF: C12672Invention novelty: This method is for evaluating cardiac properties from Computed Tomography (CT) scan combined with Body Surface Potential Mapping (BSPM). Value Proposition:Heart failure is a major public health problem in the United States that affects 5 million people and contributes...

Published: 3/13/2025 | Inventor(s): Amir Pourmorteza, Elliott Mcveigh, Albert Lardo, Karl Schuleri, Fady Dawoud

Keywords(s): Cardiovascular Diseases, Congestive Heart Failure, Congestive Heart Failure (CHF), Disease Indication, Image Processing Software, Imaging and Sensing Systems, Imaging Modality, Implantation Method, Implants, In Vivo Medical Imaging, Therapeutic Devices, Therapeutics, X-ray Computed Tomography (CT), X-Ray Computed Tomography (CT)

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Cardiovascular > Congestive Heart Failure, Technology Classifications > Computers, Electronics & Software > Image Processing & Analysis, Technology Classifications > Medical Devices > Imaging, Technology Classifications > Medical Devices > Therapeutic Devices, Clinical and Disease Specializations > Cardiovascular, Technology Classifications > Computers, Electronics & Software, Technology Classifications > Medical Devices

Methods for Evaluating Regional Cardiac Function and Dyssynchrony from a Dynamic Imaging Modality Using Endocardial Motion

C11695: SQUEEZ – New Technique for Cardiac Function MeasurementNovelty: The current invention is a new quantitative method for measuring regional cardiac function and dyssynchrony from cardiac CT images acquired during routine angiography and myocardial perfusion scans.Value Proposition: Current methods to measure cardiac function rely on cardiac wall...

Published: 3/13/2025 | Inventor(s): Amir Pourmorteza, Elliott Mcveigh

Keywords(s): Cardiovascular Diseases, Disease Indication, Image Display Software, Image Processing Software, Imaging and Sensing Systems, Imaging Modality, In Vivo Medical Imaging, X-ray Computed Tomography (CT), X-Ray Computed Tomography (CT)

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Cardiovascular, Technology Classifications > Computers, Electronics & Software, Technology Classifications > Medical Devices > Imaging, Technology Classifications > Medical Devices, Technology Classifications > Computers, Electronics & Software > Image Processing & Analysis

Method for Measuring Myocardial Motion

C03160: Method for Measuring Myocardial MotionNovelty: This method measures movement of different portions of the heart through magnetic resonance imaging (MRI) and variable separation tagging.Value Proposition: Myocardial tagging has been shown to be a robust method of measuring myocardial motion, but the resolution of these measurements is limited...

Published: 3/13/2025 | Inventor(s): Bradley Bolster, Elliott Mcveigh

Keywords(s): Cardiovascular Diseases, Disease Indication, Image Processing Software, Imaging and Sensing Systems, Imaging Modality, In Vivo Medical Imaging, Magnetic Resonance Imaging (MRI)

Category(s): Clinical and Disease Specializations, Clinical and Disease Specializations > Cardiovascular, Technology Classifications > Computers, Electronics & Software > Image Processing & Analysis, Technology Classifications > Medical Devices > Imaging, Technology Classifications > Computers, Electronics & Software, Technology Classifications > Medical Devices