Reports
We share reports related to synchrotron radiation accelerators.
We share with you various important reports related to the construction of the OCHANG Multipurpose Synchrotron Radiation Accelerator and other large-scale research facilities in Korea.
Synchrotron Radiation, Sun-Young Ham
KISTEP, 2020-07
Report for 2020 Synchrotron Radiation Accelerator Joint Use Research Support Project Researts
PAL, 2021-03
Business plan for building a long beamline dedicated to system biology imaging using artificial intelligence information processing in the Ochang synchrotron radiation accelerator
CBIST, 2023-12
Paper
Related to biomedical imaging beamlines
Here are some published papers that may be helpful to you.
Basic Research
Physics, Biology, Chemistry, Optics, etc.
Developing or utilizing synchrotron radiation accelerators involves a variety of disciplines and fields. Representative related papers are introduced here.
Nature Methods (2021)
Imaging intact human organs with local resoution of cellular structures using hierachical phase-contrast tomography
Imaging intact human organs from the organ to the cellular scale in three dimensions is a goal of biomedical imaging. To meet this challenge, we developed hierarchical phase-contrast tomography (HiP-CT), an X-ray phase propagation technique using the European Synchrotron Radiation Facility (ESRF)’s Extremely Brilliant Source (EBS). The spatial coherence of the ESRF-EBS combined with our beamline equipment, sample preparation and scanning developments enabled us to perform non-destructive, three-dimensional (3D) scans with hierarchically increasing resolution at any location in whole human organs. We applied HiP-CT to image five intact human organ types: brain, lung, heart, kidney and spleen. HiP-CT provided a structural overview of each whole organ followed by multiple higher-resolution volumes of interest, capturing organotypic functional units and certain individual specialized cells within intact human organs. We demonstrate the potential applications of HiP-CT through quantification and morphometry of glomeruli in an intact human kidney and identification of regional changes in the tissue architecture in a lung from a deceased donor with coronavirus disease 2019 (COVID-19).
Non-Clinical Research
Efficacy, Safety, Toxicology, Pharmacokinetics, etc.
There is a close relationship between synchrotron radiation and preclinical research. A synchrotron radiation is a device used for radiation therapy or diagnosis, and preclinical research is a research that is conducted before developing a new treatment or diagnostic method. Therefore, preclinical research using a synchrotron radiation can be utilized to develop a new treatment or diagnostic method.
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Clinical Research
Radiology, Radiation therapy, etc.
Although synchrotron-based technologies are not directly applied in clinical practice, they can help in clinical trials based on basic and preclinical research results.
Synchrotron radiation accelerators are also used in the field of radiation therapy. Linear accelerators are widely used in radiation therapy and are based on synchrotron radiation accelerator technology.
. Recently, the MR-Linac system, which combines MRI and linear accelerators, has been developed, contributing to tumor location tracking and improved treatment precision.
In addition, research using synchrotron radiation accelerators can contribute to understanding radiation therapy meachnisam and developing new treatment methods.
Under construction
Under construction
Device Research
Synchrotron, Detector, Magnet, Hutch, etc
A synchrotron accelerator is a collection of various technologies. Starting from physics, it uses components that apply various technologies such as superconductivity and data processing to perform its function.
Under construction
Under construction
Image & AI Research
CT, MRI, Big Data, and AI
Synchrotron imaging information
Synchrotron accelerators provide information on the microstructure and chemical composition of materials through various imaging techniques. Major imaging techniques include X-ray imaging
, scanning transmission X-ray microscopy (STXM)
, and phase contrast imaging
. These imaging techniques can obtain high-resolution images at the nanometer level, making them very useful for studying materials and substances.
Utilization of artificial intelligence
Recently, artificial intelligence technology has been introduced to efficiently analyze synchrotron imaging data. Artificial intelligence has shown excellent performance in processing large amounts of image data and recognizing patterns.
For example, research is being conducted to improve the stability of synchrotron beams by utilizing machine learning techniques,
or to extract structural information of materials from image data.
Under construction
Under construction
Video material
Introduction to video related to biomedical imaging long beam line
We share video footage from various sources related to biomedical imaging beamlines.
Human Organ Atlas Hub (HOAHub) at ESRF Announcement Sept. 2023
ESRF awarded a group of 8 international teams a Hub to apply Hierarchical Phase-Contrast Tomography (HiP-CT, see https://mecheng.ucl.ac.uk/hip-ct/) further our understanding how our organs operate during health, aging and disease.
Human Organ Atlas: HiP-CT imaging of a healthy human lung using the ESRF-EBS
Seeing inside a healthy lung using a new imaging technique - Hierarchical Phase-Contrast Tomography or ‘HiP-CT’. Performed at the ESRF-EBS 4th generation synchrotron in Grenoble
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