For the first time, researchers managed to make intact human organs transparent. Using microscopic imaging they could revealed underlying complex structures of the see-through organs at the cellular level. Resulting organ maps can serve as templates for 3D-bioprinting technologies. In the future, this could lead to the creation of on demand artificial organs for many patients in need. The findings are published in the journal Cell.
In biomedical research, seeing is believing. Deciphering the structural complexity of human organs has always been a major challenge due to the lack of technologies to image them at the cellular level. Recent developments in tissue clearing allowed researchers to obtain first cellular views of intact transparent mouse organs in 3D. These methods, however, were not applicable to human organs.
Human organs are particularly stiff due to accumulation of insoluble molecules including collagen in tissues that have grown for years or even decades. Thus, traditional detergents that are used for making mouse organs transparent do not work on human organs, particularly adult ones. "We had to change our approach completely and start from scratch to find new chemicals which can make human organs transparent," says the first author of the study. After exhausting trials, the team discovered that a detergent called CHAPS could make small holes throughout the entire stiff human organs. CHAPS allows additional solutions to travel deep into centimeters-thick human organs and convert them into a transparent structure.
After making the post mortem human organs transparent, the team had to tackle additional challenges for both organ imaging and the analysis of the large amount of resulting data. First, they developed a new laser-scanning microscope with a large sample holding capacity called "Ultramicroscope Blaze" in collaboration with Miltenyi Biotec. This microscope enabled imaging of human organs as large as the kidney. Next, the team developed deep learning algorithms to be able to analyze hundreds of millions of cells in 3D.
The researchers named this new technology SHANEL (Small-micelle-mediated Human orgAN Efficient clearing and Labeling). "SHANEL can develop into a key technology for mapping intact human organs in the near future. This would dramatically accelerate our understanding of organs such as the brain, their development and function in health and disease," explains the Principal Investigator.
Cellular maps of human organs could be used to engineer large scale human tissues and organs with emerging 3D-bioprinting technologies. Towards this goal, the team is currently working on mapping major human organs, starting with the pancreas, heart and kidney.
Making human organs transparent
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