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This week, experts from MARS Bioimaging have revealed the first 3D color radiograph of the interior of a human body. They have a device called the MARS big bore spectral scanner, the AKA MARS spectral X-ray scanner – and we cross our fingers for a simpler name because the product is also developed. This scanner uses an adaptation of the technology first used by CERN in the search for the particle of God.
The European Organization for Nuclear Research (CERN) has developed the Medipix3 technology on which this new scanner is based. The new scanner is a color medical scanner, the first of its kind. The new scanner was developed by professors Phil and Anthony Butler from Canterbury and Otago Universities. IMAGE ABOVE: Image: MARS Bioimaging Ltd. (VIDEOS below from MARS Bioimaging Ltd.).
Butler and Butler are father and son, scientists and creators of the new medial scanner. They have been working on this new scanner for the last ten years, and now they have captured and shared the first (public) images from inside a human body scanned in color. The scanner is closer to a product marketed than ever – but it is still far from the store shelves, so to speak.
ABOVE IN THE GALLERY: "Professor Phil Butler shows the area of his wrist that was scanned as one of the first human images taken using the MARS large bore spectral scanner." Scans as well, all from MARS Bioimaging Ltd.
"Hybrid Pixel Detector technology was originally developed to meet the Large Hadron Collider's particle tracking needs, and successive generations of Medipix chips have demonstrated the potential of this technology out of the mainstream for over 20 years. high energy physics ". CERN.
"Medipix is a family of reading chips for imaging and particle detection.The original concept of Medipix is that it functions as a camera, detecting and counting every particle hitting the pixels when its electronic shutter is open, "said Agrigoroae." This allows for high resolution, high contrast, and highly reliable images, making it unique for imaging applications, especially in the medical field. "
• MARS Bioimaging Ltd: The Society That Will Do the Scan
• CERN: The Group That Developed the Medipix Chips
• The Medipix Chips : Processor technology that will enable the color X-ray scanner to function
• Medipix3: One of the Medipix chip types, one that allows the X-ray scanner to function
• Group of knowledge transfer CERN Group: CERN Group to work with third parties to use CERN technologies. "It is always satisfying to see our work take advantage of the benefits for patients around the world," said Aurélie Pezous, Knowledge Transfer Manager at CERN. "Real applications like this fuel our efforts to go even further." Below is a presentation by Dr. Michael Campbell, spokesperson for CERN's Medipix chip (versions 2, 3 and 4), on particle detectors. Note the students' challenge at the end of the presentation too – exciting!
Characteristics of Medipix3:
• Pixel size 55μm x 55μm or 110μm x 110μm, 256×256 or 128×128 pixels
• Summation diagram and diagram. ; load allocation – attenuating load sharing of 2 thresholds per pixel of 55mm each with 5 local adjustment bits
• High gain mode (HG, low linearity, low noise) or low gain (LG)
• Depths of configurable counters: 2 x 1 bit, 2 x 4 bits, 2 x 12 bits, 1 x 24 bits
• Acquisition and reading of continuous or sequential data
• Buttable with 3 faces (with only one dead edge of 0 , 8 mm)
• TSV ready
Above, you will find the technical specifications for Medipix3, schematic diagram of Pixel E. For more information about Medipix3, go to the Medipix page of the CERN right now. Similar technology from CERN has been used (and continues to be used) to identify counterfeits in expensive art works. Take a look at the BBC Click Fake Art background video below from earlier this year!
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