The biomedical sciences often rely on advances in imaging technologies to translate basic research into practical medical applications. Traditional 2D imaging limits the capability to study a number of physiological conditions like neurodegenerative diseases, cancer, regeneration, and wound healing. To expand into new imaging capabilities, the MBLhas established an Imaging Innovation Initiative for research and training in next-generation correlative microscopy and computational image analysis that permits 3D reconstruction of biological samples. Concurrently, MBLhas invested in imaging engineers and specialists who can design, build, and innovate instruments for specific use by biologists
"The MBLis excited about adding new technology to our imaging capabilities to the MBLand region," said Louis Kerr, director imaging services at the Ůֱ. "These new instruments, which will be available to the MBLcommunity of scientists as well as colleagues at other Massachusetts institutions, will enable imaging of biological material using light and electron microscopy and will provide new views and better resolution of biological and material samples."
The Leica Stellaris 8 STED is a versatile high-end confocal microscope that generally provides the ability to collect clear images from a thin (optical) section of a thick sample with low background and minimal out-of-focus interference. Serial optical sectioning in combination with 3D reconstruction is a common application in the biomedical sciences. Furthermore, the Stellaris 8 includes Fluorescence Lifetime Imaging Microscopy (FLIM) that can separate different fluorophores based on their physiology and functional environment, and Stimulated Emission Depletion Microscopy (STED) which is a super-resolution technique that overcomes the diffraction limit of light by using two laser beams.
The PFIB-SEM Helios 5 Hydra is a powerful instrument that combines two key technologies: a plasma focused ion beam (PFIB) and a scanning electron microscope (SEM). The PFIB component produces a focused beam of ions (either argon, nitrogen, oxygen, or xenon), which can be precisely directed onto a sample surface. The ion beam can be used for material removal (milling) or deposition at the nanoscale. This hybrid instrument is used for standard SEM imaging, high-resolution imaging, three-dimensional (3D) reconstruction, and nanoscale material removal or modification on various sample materials at room or cryo temperatures.
Currently, there are approximately fifteen Helios Hydra systems in the U.S. and only one in Massachusetts, which is not available for public use. The microscope housed at the MBLwill be the first of its kind used for biological sciences in New England. As new additions to the Ůֱ’s Central Microscopy Facility, these advanced light and electron microscopes will provide a valued imaging resource for researchers and industry partners across the state.