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Novel Quantum Sensor Provides New Approach to Early Diagnosis Via Imaging

Novel Quantum Sensor Provides New Approach to Early Diagnosis Via Imaging
Scientists develop new quantum sensor that allows detection of oxidative stress in organs during MRI scans, opening doors to early diagnosis of serious illnesses
Unhealthy lifestyles, various diseases, stress, and aging can all contribute to an imbalance between the production of ROS and the body s ability to reduce and eliminate them. The resulting excessive levels of ROS cause oxidative stress . Graphic courtesy of National Institutes for Quantum and Radiological Science and Technology
February 10, 2021 Oxygen is essential for human life, but within the body, certain biological environmental conditions can transform oxygen into aggressively reactive molecules called reactive oxygen species (ROS), which can damage DNA, RNA, and proteins. Normally, the body relies on molecules called antioxidants to convert ROS into less dangerous chemical species through a process called reduction. But u ....

Sofiya Grad , Michio Aoki , Rumiana Bakalova , Kliment Ohridski , Sofia University St , Bulgarian Academy Of Sciences , Japanese National Institutes For Quantum , Japanese National Institutes , Radiological Science , Bulgarian Academy , Sofia University , Analytical Chemistry , சோஃபியா கிரத் , சோபியா பல்கலைக்கழகம் ஸ்டம்ப் , பல்கேரியன் கலைக்கழகம் ஆஃப் அறிவியல் , ஜப்பானிய தேசிய நிறுவனங்கள் க்கு குவாண்டம் , ஜப்பானிய தேசிய நிறுவனங்கள் , கதிரியக்கவியல் அறிவியல் , பல்கேரியன் கலைக்கழகம் , சோபியா பல்கலைக்கழகம் , பகுப்பாய்வு வேதியியல் ,

Novel quantum sensor offers a new route to early diagnosis, preventive treatment

Novel quantum sensor offers a new route to early diagnosis, preventive treatment
Oxygen is essential for human life, but within the body, certain biological environmental conditions can transform oxygen into aggressively reactive molecules called reactive oxygen species (ROS), which can damage DNA, RNA, and proteins. Normally, the body relies on molecules called antioxidants to convert ROS into less dangerous chemical species through a process called reduction.
But unhealthy lifestyles, various diseases, stress, and aging can all contribute to an imbalance between the production of ROS and the body s ability to reduce and eliminate them. The resulting excessive levels of ROS cause oxidative stress, which can disrupt normal cellular functions and increase the risk of diseases like cancer, neurodegeneration, kidney dysfunction, and others, which are all accompanied by severe inflammation. ....

Sofiya Grad , Michio Aoki , Rumiana Bakalova , Emily Henderson , Kliment Ohridski , Sofia University St , Bulgarian Academy Of Sciences , Japanese National Institutes For Quantum , Japanese National Institutes , Radiological Science , Bulgarian Academy , Sofia University , Analytical Chemistry , Lead Scientist , சோஃபியா கிரத் , எமிலி ஹென்டர்சன் , சோபியா பல்கலைக்கழகம் ஸ்டம்ப் , பல்கேரியன் கலைக்கழகம் ஆஃப் அறிவியல் , ஜப்பானிய தேசிய நிறுவனங்கள் க்கு குவாண்டம் , ஜப்பானிய தேசிய நிறுவனங்கள் , கதிரியக்கவியல் அறிவியல் , பல்கேரியன் கலைக்கழகம் , சோபியா பல்கலைக்கழகம் , பகுப்பாய்வு வேதியியல் , வழி நடத்து விஞ்ஞானி ,

On the dot: Novel quantum sensor provides new approach to early diagnosis via imaging

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IMAGE: Unhealthy lifestyles, various diseases, stress, and aging can all contribute to an imbalance between the production of ROS and the body s ability to reduce and eliminate them. The resulting excessive.
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Credit: National Institutes for Quantum and Radiological Science and Technology.
Oxygen is essential for human life, but within the body, certain biological environmental conditions can transform oxygen into aggressively reactive molecules called reactive oxygen species (ROS), which can damage DNA, RNA, and proteins. Normally, the body relies on molecules called antioxidants to convert ROS into less dangerous chemical species through a process called reduction. But unhealthy lifestyles, various diseases, stress, and aging can all contribute to an imbalance between the production of ROS and the body s ability to reduce and eliminate them. The resulting excessive levels of ROS cause oxidative stress, which can disrupt normal cellula ....

Sofiya Grad , Severina Semkova , Higashi Tatsuya , Michio Aoki , Dessislava Lazarova , Rumiana Bakalova , Genoveva Zlateva , Kliment Ohridski , Japanese Society For The Promotion Of Science , Bulgarian Academy Of Sciences , Development Cancer , National Institutes Of Quantum , Japanese National Institutes For Quantum , Innovation Program , Department Of Management , Research Article , Technology Agency Center , Japanese Agency For Medical Research , Sofia University St , National Institutes For Quantum , Clinical Cancer Research , Japanese National Institutes , Radiological Science , Bulgarian Academy , Sofia University , Analytical Chemistry ,