Medical Instruments & Devices
15 Results were found on Technologies
Sub Category Name
Data Driven Algorithm For Visualizing Myelin in The Human Brain
Quantification of myelin content in the human brain is the key for early disease detection and for assessing treatment response in patients with neurodegenerative diseases. However, it has remained challenging due to lack of a reliable method for probing sub-voxel features from clinical MRI data. We developed a data-driven algorithm that accurately converts clinical MRI […] Read More >
Improved Diagnosis and Prognosis of Neurological Diseases using Novel Training Tools and Decision Support Systems Based on a New Quantitative MRI Imaging Technique
Recently, we developed a quantitative MRI (qMRI) based technique, which can emulate pathologies on radiologic images at arbitrary levels of severity. This qMRI technique relies on the actual biological changes that occur during disease, thereby producing more faithful representation of how pathologies appear in radiologic images. The technique can also simulate a range of scanning […] Read More >
Mapping Transverse Relaxation in Preclinical MRI Scanners
UNMET NEED Accurate quantitative magnetic resonance imaging (qMRI) is gradually becoming indispensable in clinical diagnostics and research. It’s application on preclinical MRI scanners, however, is hampered by the use of strong imaging gradients, which act to increase the effects of molecular diffusion, leading to bias of the measured signals. This inherent bias makes qMRI techniques […] Read More >
Using Eye-Tracking During Sentence Reading to Identify Subject Tendency to Depression
Depression is a common and disabling mental health disorder, which impacts hundreds of millions of people worldwide. Current diagnosis methods rely almost solely on self-report and are prone to subjectivity and biases. In recent years, computational psychiatry has employed advanced sensing technology, utilizing rich data, in order to train accurate algorithms to detect depression from […] Read More >
Advanced Sensitivity in Point-of-Care Diagnostics: Electrokinetic Preconcentration Technology
As is evident from the lateral-flow-assay (LFA) that became so popular with detection of Corona virus, there is an urgent need to increase the sensitivity of detection of both point-of-care (POC) and self-testing (for example, used by individuals at home) devices. Lateral flow kits result in relatively low detection limit as only a small fraction […] Read More >
