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AI analyzes cell movement under the microscope

Date:
February 16, 2023
Source:
University of Gothenburg
Summary:
Using artificial intelligence (AI), researchers can now follow cell movement across time and space. The method could be very helpful for developing more effective cancer medications.
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The enormous amount of data obtained by filming biological processes using a microscope has previously been an obstacle for analyses. Using artificial intelligence (AI), researchers at the University of Gothenburg can now follow cell movement across time and space. The method could be very helpful for developing more effective cancer medications.

Studying the movements and behaviours of cells and biological molecules under a microscope provides fundamental information for better understanding processes pertaining to our health. Studies of how cells behave in different scenarios is important for developing new medical technologies and treatments.

"In the past two decades, optical microscopy has advanced significantly. It enables us to study biological life down to the smallest detail in both space and time. Living systems move in every possible direction and at different speeds," says Jesús Pineda, doctoral student at the University of Gothenburg and first author of the scientific article in Nature Machine Intelligence.

Mathematics describes relationships of particles

Advancements have given today's researchers such large amounts of data that analysis is nearly impossible. But now, researchers at the University of Gothenburg have developed an AI method combining graph theory and neural networks that can pick out reliable information from video clips.

Graph theory is a mathematical structure that is used to describe the relationships between different particles in the studied sample. It is comparable to a social network in which the particles interact and influence one another's behaviour directly or indirectly.

"The AI method uses the information in the graph to adapt to different situations and can solve multiple tasks in different experiments. For example, our AI can reconstruct the path that individual cells or molecules take when moving to achieve a certain biological function. This means that researchers can test the effectiveness of different medications and see how well they work as potential cancer treatments," says Jesús Pineda.

Pharmaceutical companies already using AI

AI also makes it possible to describe all dynamic aspects of particles in situations where other methods would not be effective. For this reason, pharmaceutical companies have already incorporated this method into their research and development process.

Facts: Neural networks Neural networks learn to collect the specific information that a researcher wants from an image by using self-supervised learning. The tool simplifies the analysis process and enables collection of large amounts of detailed information from the data-packed videos.


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Materials provided by University of Gothenburg. Note: Content may be edited for style and length.


Journal Reference:

  1. Jesús Pineda, Benjamin Midtvedt, Harshith Bachimanchi, Sergio Noé, Daniel Midtvedt, Giovanni Volpe, Carlo Manzo. Geometric deep learning reveals the spatiotemporal features of microscopic motion. Nature Machine Intelligence, 2023; 5 (1): 71 DOI: 10.1038/s42256-022-00595-0

Cite This Page:

University of Gothenburg. "AI analyzes cell movement under the microscope." ScienceDaily. ScienceDaily, 16 February 2023. <www.sciencedaily.com/releases/2023/02/230216083932.htm>.
University of Gothenburg. (2023, February 16). AI analyzes cell movement under the microscope. ScienceDaily. Retrieved May 28, 2024 from www.sciencedaily.com/releases/2023/02/230216083932.htm
University of Gothenburg. "AI analyzes cell movement under the microscope." ScienceDaily. www.sciencedaily.com/releases/2023/02/230216083932.htm (accessed May 28, 2024).

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