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Phase Contrast Imaging Special X-Ray Imaging Technology Might Detect Early-Stage Lung Disease
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An imaging process that today is used mainly in research labs could potentially detect early-stage lung disease if developed for use in hospitals and clinics, a new research study shows.
Researchers from KTH Royal Institute of Technology in Stockholm tested how a process called phase-contrast X-ray imaging could be used on human lungs, using a model simulating the human chest. The model was developed at Duke University.
They reported that phase-contrast chest radiography can visualize the smallest airways — measuring less than 2 mm — and their disease-related obstructions. These are details that don’t show up in conventional radiography, say the study’s lead authors, Ilian Häggmark and Kian Shaker, researchers at the Department of Applied Physics at KTH Royal Institute of Technology.
Limited-Use Research Technique
Phase contrast imaging is used in research labs with equipment that today is limited in use to imaging centimeter-scale samples of soft tissue. But, Häggmark says, the study clearly shows that it’s possible to do more with phase-contrast X-ray imaging, if the technical demands for clinical use can be engineered. “The chest radiography that clinics and hospitals use today plays an important role in detecting respiratory disease, but it is fundamentally limited by the way in which it generates images,” Häggmark says. He says that the promising phase-contrast technique used in the study could show subtle pathological changes that are otherwise invisible with conventional X-ray imaging, which is important when screening for diseases like asthma or chronic obstructive pulmonary disease (COPD).
In conventional radiography, the X-ray beam passes through the body, where it is absorbed along the way in different tissues by different amounts. On the other side, a detector measures the intensity of the beam — or what’s left of it — after it has been filtered through the body. This process is known as attenuation, and it’s the basic mechanism for providing the contrast that makes X-ray images useful.
The phase-contrast technique is a way of getting more information out of each X-ray beam. That’s because it’s possible to measure differences in the waveforms of X-rays that pass through a sample. X-ray beams encounter atoms and other structures that can change the position of the wave at any point in time — the phase — in relation to a reference wave. This phase information is used to generate an image that enhances structures in the sample, which in the human chest highlights the boundaries of bronchial walls and small airways with higher contrast and better resolution. Häggmark says that one key to the method is to move the detector further away from the patient.
“Phase-contrast X-ray imaging can extract more information at higher resolution using the same amount of radiation dose as in conventional radiography”.
Development of equipment for imaging larger samples will take time, he says. “You need an X-ray source with both high power and a small emission spot,” he says. “Basically you need bright X-ray sources.” He says that promising developments are being carried out, but it will take time for this to reach testing for human use,” he says. “For now, simulations and virtual clinical trials are the perfect tools to explore what we can do when the source technology is ready.
Original Publication: Phase-contrast virtual chest radiography, PNAS, DOI: 10.1073/pnas.2210214120
(ID:49208934)
:quality(80)/p7i.vogel.de/wcms/d0/9e/d09efd9323e1f45fe0afa9ef0b085802/0109627099.jpeg "Researchers developed a Raman microscope that can acquire information hundreds of times faster than a conventional Raman microscope. This extra speed makes it possible to acquire large-area hyperspectral images of living cells, such as the ones seen here. (Source: Katsumasa Fujita, Osaka University)")
:quality(80)/p7i.vogel.de/wcms/1f/ef/1fef41e5bec0233c7669b4742c60bcb9/0113535506.jpeg "The upper images are the chest radiographs of patients from 21 to 40 years old and from 81 to 100 years old chronologically and the lower images are a visualization of the AI’s focus (both after averaging). Red indicates the points most useful for age determination. (Source: Yasuhito Mitsuyama, OMU)")