Researchers fromStanford Medicine在美国使用的一种ed new imaging technique to map the human digestive system. This revealed that our gut is like other neighbourhood communities, with different types of cells cooperating with each other to digest food and fight off bugs and infections.

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科学家调查了八个地区的小和large intestines of nine deceased individuals. To image these regions they used a technology called 'co-detection by indexing' (CODEX). This involves staining and washing the gut tissue repeatedly with fluorescent antibodies which bind to specific proteins, and thus enable easier imaging.

By combining CODEX as well as other new imaging and sequencing technologies, the researchers were able to map these neighbourhoods down to the level of individual cells – something that has never been achieved before.

Once the gut had been mapped, the researchers were able to identify 20 distinct cellular neighbourhoods within the human digestive system. These include epithelial cells that make up the intestinal lining, connective tissue cells, nerve cells and immune cells, as well as blood vessels.

green areas of stomach microscope image
Specific cells within the gut were tagged with different colours to highlight different cell types. The green areas in this image are cytokeratins, a type of protein that enable cells to withstand mechanical stress during the digestion process. They are surrounded by immune cells (shown in magenta) and eukaryotic cell nuclei (shown in blue). The red areas show muscle tissue. Photo by Stanford Medicine/Snyder lab/Nolan lab/Greenleaf lab
Detail showing... Photo by
Detail showing the proteins, bacteria and immune cells close-up. Photo by Stanford Medicine/Snyder lab/Nolan lab/Greenleaf lab
Microscope image of inside of stomach
This image shows muscle cells in red, surrounded by magenta-coloured immune cells, cyan-coloured proteins and endothelial cells that line blood vessels – shown here in yellow. Photo by Stanford Medicine/Snyder lab/Nolan lab/Greenleaf lab
Bright red and green areas of intestine
A close-up image showing the red muscle cells and various proteins and immune cells in more detail. This is the first map of the human intestine that has been visualised at the single-cell level. Photo by Stanford Medicine/Snyder lab/Nolan lab/Greenleaf lab

The researchers hope that these images will be used in a clinical setting to help diagnose conditions such asirritable bowel syndromeand early-stagecolon cancer, where healthy and unhealthy digestive system images can be compared and analysed by doctors.

Eventually, the team also aims to produce a three-dimensional map of the gut to better understand the nerve structures and blood vessels of the digestive system, which in turn will help with diagnosis and treatments.

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Authors

James Cutmore Picture Editor, BBC Science Focus

James Cutmore is the picture editor of BBC Science Focus Magazine, researching striking images for the magazine and on the website. He is also has a passion for taking his own photographs

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