Researchers at the University of Michigan developed a treatment using precise 3D imaging technology that offers a safer and more effective way to measure and dose radiation. The novel treatment is a means for doctors to view data in real-time, previously unseen. By catching and magnifying small sound waves created by x-rays, radiologists can chart..
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Point-of-Care Ultrasound (POCUS) was recently declared by the American Academy of Family Physicians as, “The biggest advance in bedside diagnosis since the advent of the stethoscope 200 years ago.” Many industry professionals, such as anesthesiologists, internal medicine specialists, family practitioners, and more, already use this technology and believe it is beneficial in widespread application. Ongoing..
Medical equipment professionals often debate whether machines are useful past their “expiration” date. Newer radiation therapy equipment is touted to last seven or eight years, noting that it took roughly seven years to design and program before its release, doubling its age instantaneously. Therefore, the technology, software, and knowledge associated with a 14-year-old device is..
Artificial Intelligence (AI) has been poised to improve the radiological process for some time, yet despite hundreds of conferences, hype, and promises, AI hasn’t made a huge impact yet. Part of the issue with AI’s slow integration for radiologists lies within the application. Algorithms can be applied to specific situations and places, but radiologists need..
An innovative new technology headed to Flint will be used to treat cancer with proton therapy. The McLaren Proton Therapy Center is the first to receive the new machine that treats patients upright, enabling cancer treatment with more precision. Leo Cancer Care developed the proton therapy called “Marie,” which will take up less space yet..