Droplet-Based Microrheometer for Real-Time Viscosity Monitoring of Blood Coagulation
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PICTURE is a suite of machine learning algorithms that utilizes electronic health record (EHR) data to predict patient deterioration in hospital settings.
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PICTURE is a suite of machine learning algorithms that utilizes electronic health record (EHR) data to predict patient deterioration in hospital settings.
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By providing a hosting solution outside of EHR systems, EMMIT can monitor the flow of data between systems and notify teams of errors or downtime.
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PICTURE is a suite of machine learning algorithms that utilizes electronic health record (EHR) data to predict patient deterioration in hospital settings.
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PICTURE is a suite of machine learning algorithms that utilizes electronic health record (EHR) data to predict patient deterioration in hospital settings.
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We’ve built and tested a full-body device that helps ICU patients avoid Post Intensive Care Syndrome (PICS) by applying vibration to activate their muscles. The device has four entry points, two at the shoulders and two at the feet. Not only does the system apply vibrations at both ends of the skeletal system, it also compresses the body and tightens the joints so the vibrations travel all the way through the body.
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We’ve built a rapid, accurate, and highly multiplexed digital immunoassay device. Measuring a large panel of protein biomarkers near the bedside has the potential to transform patient critical care. By incorporating machine learning-based autonomous image analysis, the assay chip and instrument have achieved 12-plexed pro-inflammatory biomarker detection at concentrations of < 10pg/mL with a sample volume of < 10 μL, including all processes from sampling to data analysis within 30 minutes, while only requiring a 5-minute assay incubation.
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Using only exhaled breath, this non-invasive, point-of-care device can identify and track over 20 lung diseases including ARDS and COVID.
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The DEVD will provide caregivers from the field hospital to the ICU the ability to automatically quantify, regulate, and monitor ICP and cerebrospinal fluid (CSF) drainage. The DEVD has the potential to move an industry away from the old rope and pulley system into the modern era. Ready for wireless and analytic integration, the DEVD can also be used to stream data that can be utilized in predictive modeling for advanced TBI diagnosis and treatment.
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This is a hand-held device that sends blood test results of traumatic brain injury (TBI) patients directly to a smartphone while utilizing a series of blood-based biomarkers that can be used to monitor individual patient response to TBI treatment regardless of their state. This point-of-care platform is suited for performing repeated measurements at a fraction of current hospital costs.
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This innovative, handheld POC biomarker immunosensor system is a battery-operated, highly portable, pipette-shaped biomarker analysis microsystem that is wirelessly connected to a smartphone for data transmission and analysis. Because current critical care practice is insufficient to monitor the dynamic nature of sepsis, this device stands ready to improve outcomes and save lives.
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DETECT-ARDS is analytic capable of detecting the presence of acute respiratory distress syndrome (ARDS), a critical illness with high mortality rates. Using available electronic health record (EHR) data, DETECT-ARDS is highly-accurate with low false-positives.
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The Model Performance Diagnostics are a suite of tools compatible with the EMMIT hosting and integration platform. This standalone application detects data shift and model degradation by comparing the distribution of the real-time data that is fed to the model to the data on which the model was trained.
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EMMIT solves a critical problem for predictive analytics in a hospital setting. By providing a hosting solution outside of EHR systems, EMMIT can monitor the flow of data between systems and notify teams of errors or downtime. EMMIT’s usefulness scales with the ability to host and monitor the operation of multiple models simultaneously.
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The Redox Point-of-Care platform is the first to allow measurement of redox in whole blood and other fluids in the clinical setting, rapidly, in real-time - and it does it at bedside, where it is needed most to affect change. It contains sensor technology that utilizes nanoporous gold electrodes integrated into a microfluidic device to directly measure oxidation reduction (redox) in whole blood at 250 microliter sample amounts without the risk of contamination or biofouling.
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