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What is the first feeling you feel when you look at an X-ray? Surely that of extreme confusion. And yes, because even if an experienced doctor is able to interpret it, it is certain that in the hands of a mortal a plaque does not offer as many explanations on a pathology or fracture in place. All this, however, one day will be only a memory because a team of scientists has managed to create – for the first time in the world – a tool to generate 3D X-rays. And the details are above all expectations.
The best diagnosis?
Getting such detailed x-rays can lead to a much better diagnosis than we can have today. In the picture above – published in the Daily Mail – you can see the three-dimensional wrist of a man wearing a watch. As you can see, the details are exceptional. "This new imaging tool can capture images that no other imaging tool can achieve," says Professor Phil Butler of the University of Canterbury (New Zealand).
Levels of Markers
even detect important markers of diseases such as calcium and fat levels in organs or tissues. But not only: you can badyze in detail tumor mbades, joints and bone structure. The technology of 3D radiography is completely different from those with which we normally treat. They work, in fact, almost as if it were cameras with a kind of Persian that opens up by detecting all the different particles that hit their pixels. Initially, this technology was used by CERN experts to identify particles to be used in physics in order to obtain reliable images. But scientists believe that these instruments are perfectly suited for medical use.
A Satisfaction
"It's a great satisfaction to see how our work can be leveraged for the benefit of patients around the world." Real applications like this fuel our efforts to achieve better goals ", explains Aurélie Pezous, CERN Knowledge Transfer Officer.
Radiography
When we talk about traditional X-rays, we talk about X-rays. Giovanni Mandarano, a doctor from Deakin University, explained to The Conversation that X-rays are photons or packets of Energy (ionizing radiation) that are part of the electromagnetic spectrum. When they pbad through human tissues, they are absorbed by the bone but can never get out of the body anymore. On the other hand, other X-ray photons can affect less dense tissues such as muscles and can get out of the body. The new technology, on the other hand, seems to be quite safe and does not seem to endanger the patient's radiation.
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