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Genetically Encoded Membrane Tension Sensor for Real-Time Fluorescent Imaging
This technology is a genetically encoded, membrane-bound fluorescent tension sensor that converts changes in cell membrane tension into changes in light intensity. It enables real-time visualization and measurement of mechanical forces in living cells, tissues, and model systems for mechanobiology research, disease modeling, and therapeutic screening.
The...
Published: 5/15/2026
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Inventor(s): Em Ben Sorum
Keywords(s): Cell Lines, Drug Screening, Fluorescence, Imaging, Membranes, Mouse Models, Quantification
Category(s): Research Tools, Human Health Care, Human Health Care > Biomarkers, Diagnosis and Detection
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A Method for Detecting Radiological Progression in Cancer Surveillance
Brief Description
Diagnostic medical imaging technologies such as Computed Tomography (CT) and Magnetic Resonance Imaging (MRI) are noninvasive procedures used to acquire high-resolution images of organs/tissues in the body. These technologies provide valuable information for identifying tissue damage, disease diagnosis, and delivery of radiation therapy....
Published: 5/6/2026
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Inventor(s): Nidhal Bouaynaya, Ghulam Rasool, Hassan Fathallah-Shaykh
Keywords(s): Cancer, Imaging, Machine Learning, MRI, Quantification, Radiology, Software, Surveillance
Category(s): Software, Human Health Care > Biomarkers, Diagnosis and Detection
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