Release date: 2016-04-08 1, "Big Data" technology in the application of images will greatly improve work efficiency Medical imaging equipment will increasingly rely on the help of data analysis (commonly known as "big data"). Using clinical analysis of big data and data analysis methods, imaging findings can be closely related to patient outcomes. Machine learning methods, using artificial intelligence algorithms to learn from data and make predictions, will be a key area. Driven by medical integration and improved work efficiency, optimizing business processes will be an improvement in image information processing. 2. Based on the value-based charging model, can it be achieved in the end? 3. The debate about breast cancer screening will continue to ferment As a doctor, you must do everything in your power to inform patients about the importance of breast mammography screening. In terms of imaging technology, magnetic resonance, CT, enhanced dual-energy mammography, and molecular mammography will all provide more help. 4. CT screening of lung cancer will begin to be implemented 5, é’† worry will be enveloped in MRI There is evidence that, in some cases, a few years after the MR scan occurred, there was a persistent sputum in the patient's brain. Although it is unclear whether residual sputum is a safety risk, there is news that the US Food and Drug Administration (FDA) will conduct relevant research. 6. What is the next step in the training of nuclear medicine physicians? The rise of hybrid imaging technology has given radiologists who focus on anatomical imaging the opportunity to take over PET/CT, SPECT/CT, PET/MRI interpretation, which poses challenges for the development of nuclear medicine physicians. 7. The clinical role of ultrasound elastography is growing Elastography is one of the most popular technologies in the field of ultrasound, and it will gradually strengthen its role in clinical applications such as breast, thyroid, liver, and musculoskeletal imaging. 8. The infrastructure for supplying medical isotopes will be gradually strengthened. Highly enriched uranium production has traditionally been used in nuclear reactors. The fragility of production systems has led to a shortage of medical isotopes in the northern United States over the past decade. A better system would have a smaller point source distributed supply chain that would not rely on weapon-grade highly enriched uranium with national security risks. 9, 3D printing from toys to tools 3D printing technology will be increasingly applied to breast reconstruction surgery, virtual surgery training modules, congenital heart disease development surgery and other fields. Source: Medical Device Innovation Network Fire Protection Device,Wet Chemical Fire Extinguisher,Co2 Extinguisher,Home Fire Extinguisher DONGGUAN TENYU TECH.INC , https://www.tenyutech.com