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Artificial Intelligence

By Kat Jercich | 09:30 am | April 15, 2022
VisualDx Director of Clinical Impact Dr. Nada Elbuluk discusses Project IMPACT, and how individuals and organizations can work to address gaps in care.
By Mike Miliard | 10:20 am | April 13, 2022
Ascertain, funded to the tune of $100 million, will develop machine learning and predictive analytics tools to help solve "quality, equity and cost problems."
06:39 am | April 11, 2022
Experts say preparedness is stymied by funding gaps and complexity, according to Brussels-based Frieda Klotz.
By HIMSS TV | 07:00 am | April 07, 2022
Mount Sinai Health System’s VP of clinical innovation and chief nursing informatics officer Robert Freeman discusses how AI can help keep patients safer and support frontline teams.
By Angela Jones | 02:33 pm | April 04, 2022
AI, augmented reality, biomedical sensors and beyond – by mapping out a clear vision now, we can widen our ambitions and improve modernization strategies to better harness the vast potential offered by technology advances.
By Mike Miliard | 04:54 pm | April 01, 2022
University of Utah Health, Regenstrief Institute and Hitachi this past week announced the development of a new artificial intelligence approach that could help improve treatment for patients with Type 2 diabetes mellitus. WHY IT MATTERS Researchers from all three organizations collaborated to develop and test a new AI approach to analyzing electronic health record data across Utah and Indiana. As they did, they uncovered some patterns for Type 2 diabetes patients with similar characteristics. Those hope is that those treatment patterns can now be used to help determine an optimal drug regimen for a specific patient. University of Utah researchers had worked with Hitachi for several years to develop a pharmacotherapy selection system for diabetes treatment, but a lack of sufficient data meant that it wasn't always able to accurately predict more complex and less prevalent treatment patterns. It also wasn't easy to use data from multiple facilities, researchers said, because it was necessary to account for differences in disease states and therapeutics prescribed across regions. So U of U researchers collaborated with Regenstrief experts to enrich the data it was working with – enabling a AI-based approach that first groups patients with similar disease states, then analyzes treatment patterns and clinical outcomes. The model then matches specific patients to the disease state groups – predicting a range of potential outcomes, depending on different treatment options. Researchers assessed how well this method worked in predicting successful outcomes given drug regimens administered to patients with diabetes in Utah and Indiana. Their findings showed the algorithm was able to support medication selection for more than 83% of patients, even when two or more medications were used together. More detailed results from the study are published in the peer-reviewed Journal of Biomedical Informatics. U of U and Regenstrief will continue work on evaluating and improving the efficacy of these models, with help from Hitachi's health IT business divisions and R&D group. THE LARGER TREND While 10% adults worldwide have been diagnosed with Type 2 diabetes, these researchers note, a smaller percentage require multiple medications to control blood glucose levels and avoid serious complications, such as loss of vision and kidney disease. For this group of patients, physicians may have limited clinical decision-making experience or evidence-based guidance for choosing drug combinations, researchers note. It's hoped that this new AI-enabled clinical approach can help patients who require complex treatment in checking the efficacy of various drug combinations. At HIMSS22 this past months, hospital CIOs offered their insights on how AI and machine are helping uncover hidden insights in EHR data. Artificial intelligence is increasingly proving its mettle for diagnostics and treatment as approaches to managing diabetes and other chronic conditions evolve. The American Diabetes Association, for instance, recognizes use of some autonomous AI applications, such as screening tools for diabetic retinopathy, and says they meet the standard of care. Meanwhile, health systems are finding new successes using telehealth and remote patient monitoring for diabetes management. ON THE RECORD "Based on our findings, future progress in techniques for developing models using data from multiple sources, especially when sample sizes of individual sources are small, has the potential to contribute to improved clinical decision support," said researchers in the Journal of Biomedical Informatics. "At the same time, it is important to develop the infrastructure and processes that allow technologies such as distributed learning, which can provide predictive performance equivalent to integrating source data, to be implemented as easily as integrating models. Last, prediction models such as those we describe here should be evaluated in clinical practice regarding acceptability and impact." Twitter: @MikeMiliardHITN Email the writer: mike.miliard@himssmedia.com Healthcare IT News is a HIMSS publication.
By Kat Jercich | 02:27 pm | April 01, 2022
Dave Vennergrund, GDIT vice president of artificial intelligence and data insights, discussed the software's potential to assist in screening patients for possibly harmful diseases.
By Mike Miliard | 04:44 pm | March 29, 2022
The cloud-based platform will help drive faster and more efficient research by automating data management, enabling predictive forecasts and more.
By Dr Pritesh Mistry | 09:11 am | March 29, 2022
Despite significant investment and well over a decade of different transformation plans and initiatives, there’s still much to do before we can say the health and care system has truly gone through a digital revolution.