Shedding new light on biology

Physicists at the European Molecular Biology Laboratory (EMBL) have developed a microscope that gives scientists a much deeper look into living organisms than before.

Physicists at the European Molecular Biology Laboratory (EMBL) have developed a state-of-the-art microscope that gives scientists a much deeper look into living organisms than before.

Called SPIM (Selective Plane Illumination Microscopy), the technology reportedly allows scientists, for the first time, to study live systems from many different angles, under real conditions and with minimal disruption to the specimen.

“Over the years we’ve seen current microscopes falling short of what the scientists need. We designed SPIM with EMBL biologists to make sure that it was completely suited to their needs,” said EMBL scientist Ernst Stelzer, whose group developed SPIM with the input of developmental biologists in the group led by Jochen Wittbrodt. “This new microscope is easy to build, is about one-third the cost of current technologies, and gives scientists improved resolution by a factor of about five.”

According to EMBL, SPIM allows scientists to view relatively large samples (2-3mm) in a medium that mimics real conditions, rather than cutting-up and destroying the sample to fix it to a slide (as needed in traditional microscopy).

SPIM shines a very thin slice of light through the sample and then systematically moves the specimen through the light sheet to capture images from each layer. No out-of-focus light is created, so SPIM gives a sharper image of the sample without the usual background blur.

The whole sample can continue living and growing as it is viewed under the microscope, something that current microscopes do not allow. SPIM also minimises the amount of light-induced damage and extends the life of the sample, by using thin slices of light rather than illuminating the entire sample all at once.

The entire procedure is said to be extremely fast and detailed images can be acquired in minutes. To further improve the resolution and to correct for distortions that depend on the viewing direction, the sample can be rotated and scanned again. As a result of EMBL physicist Jim Swoger’s work on image processing, the combination of the different views yields an unequalled three-dimensional (3D) image.

PhD student Jan Huisken from the Stelzer group, one of the developers of the technology, sees the creation of SPIM as a major breakthrough in both the scientific and microscopy communities. “Not only is this microscope simply more powerful than many existing technologies, but it also comes at the perfect time for biologists who need to study complete systems.”