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Edmund Optics® supplies a wide range of optics for LSFM applications including beam expanders, cylinder lenses, microscope objectives, and notch filters. Components ideal for these systems are continuously added to keep up with developments in this application space.

In epifluorescence or confocal microscopes, the illumination for excitation and the imaging objective share a common light path. In LSFM, the illumination source is separated and typically perpendicular to the detection path in the system.2 The different LSFM configurations can generally be broken up as systems with either planar or scanned light sheets.1 This guide will primarily discuss the planar light sheet configuration, where a planar laser light sheet is created by the combination of a cylindrical lens paired with a Gaussian beam.2 By flattening the beam traveling through the system, which is otherwise circular, the cylindrical lens creates a sliver of light parallel to the focal plane.2 Since a whole plane is captured, the imaging time is significantly reduced compared to conventional techniques where only a point of light is focused. This is one major disadvantage of the multiphoton microscopy approach, where samples may need to be imaged for hours compared to minutes with LSFM.2 However, data handling and processing quickly become an issue with the amount of data acquired.1 LSFM can be implemented with multiphoton miscopy to improve imaging depths in the specimen and improve spatial resolution.3 Another drawback of LSFM is the complexity of alignment with adopting more than two objectives.

The main benefits of light sheet microscopy can all be attributed to its planar illumination. With conventional microscopy techniques, it is difficult to preserve the intensity of the light through the entirety of thick samples. When imaging thick specimens, it is normal to observe light fall off as the light intensity decreases along the length of the focal plane. This can be even more apparent in specimens with opaque features that can block the light. When this happens, there is a striping effect that makes the feature look like it has a shadow, along with a loss of resolution.1 LSFM and the implementation of two illumination sources on either side of the sample help compensate for light falloff.2

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Rao, S. S., Lee, H., and Hu, Y. (July 11, 2014). "Optimal Design of Compound Parabolic Concentrator Solar Collector System." ASME. J. Mech. Des. September 2014; 136(9): 091402. https://doi.org/10.1115/1.4027874

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There are multiple components of LSFM that play a role in increasing image quality. The sample is translated and rotated to image multiple thin slices parallel to the focal plane, or the light sheet itself is scanned across the sample.2 By capturing the same portion of the sample from different viewing angles, resolution can be increased with the fusion of those separate images. The numerical aperature (NA) of the illumination objectives also influence the resolution.2 The NA dictates the angle that the objective can collect or emit light. An objective with a high NA can achieve better diffraction-limited resolution and causes the visible area of the sample, known as the field of view (FOV), to decrease. However, a small FOV is not ideal for imaging thick specimens because it will take more time to image a given area. LSFM has the ability to image specimens tens of millimeters thick without image degradation from illumination fall off, which is about 9mm thicker than that of a typical confocal microscope.1 This is significant for imaging thick specimens with fluorescence microscopy due to secondary fluorescence occuring outside of the focus region, which can obscure the image. LSFM does not encounter this problem since it only illuminates the plane in focus and no other excess fluorescence gets excited.

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LSFM is primarily used to image biological samples and can be done in vivo. Relatively large (several mm in size), optically-transparent specimens can be imaged using this technique due to the light penetration of the laser sheet. While other techniques may be more attractive to image at higher resolutions, LSFM offers the advantage of low photodamage in a sample. In cell applications where movement and dynamic processes are present, LSFM offers the ability to image large areas quickly.3 This technique can be used to view time-lapse observations in three-dimensional volumes over long periods of time.4 Optical stability must be maintained to get successful time-lapse results. Temperature fluctuations can cause shifts in the sample, and time-lapses are not well-suited for imaging live samples, since they may move as the time-lapse is captured.

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Contributed by the Design Automation Committee of ASME for publication in the JOURNAL OF MECHANICAL DESIGN. Manuscript received August 2, 2013; final manuscript received May 23, 2014; published online July 11, 2014. Assoc. Editor: Harrison M. Kim.

A much larger region of the sample is illuminated in conventional epifluorescence microscopy. The excitation illumination goes through the sample in the axial (z) direction and excites fluorescence both in the focus plane and outside of it.1 This out-of-focus fluorescence makes it more difficult to accurately measure the in-focus signal.

One of the most common use cases of LSFM is tracking the development of embryos in both humans and animals, which is known as embryogenesis.1 Embryos are labeled with fluorescent markers that can be excited by the light sheet of an LSFM system. This allows scientists to track cell growth in developing embryos. Software implementation allows for automated cell tracking. LSFM's large field of view and high speed make it advantageous for imaging embryos and other large, living samples.

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LSFM has also been an instrumental technique for otolaryngology, as it is well-suited for imaging the components of the middle and inner ear.1 LSFM allowed researchers to generate 3D models of ear structures that were more detailed than past models.

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Figure 2: A polyp imaged using a conventional fluorescence microscope contains significant background noise from fluorescence out of the focus plane. The intense illumination also causes the polyp to retract. On the other hand, LSFM eliminates this out-of-focus fluorescence and the polyp fully emerges under the gentler illumination of an LSFM system developed by the University of Essex.1, 4

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Light sheet fluorescence microscopy (LSFM, also known as selective plane illumination microscopy (SPIM), is a medium-to-high-resolution fluorescence microscopy method that captures images at high speeds. It is well-suited for imaging three-dimensional biological samples at multiple depths, known as optical sectioning. A laser light sheet is focused into a two-dimensional plane, typically with a cylinder lens, to illuminate only a thin slice of the sample and excite fluorescence, reducing phototoxicity and damage to the sample (Figure 1).

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Figure 2, below, shows how the difference in illumination methods between conventional fluoroscence microscopy and LSFM can alter image appearance.

When the technique implements a light sheet created by a Gaussian beam with a thin waist, it results in higher resolution in the axial direction. However, it decreases propogation length across the illumination axis. This causes the FOV to be smaller. On the other hand, a Gaussian beam with a thick waist can be used and will result in a longer propogration length but in turn will decrease resolution.4 However, this can also lead to an increase in photodamage to the sample.

While there can be many variations of LSFM setups, Figure 3 shows a typical system layout in which one laser source is used for illumination and a scanning mirror moves the laser beam across a stationary sample. Multiple laser sources and detectors can be incorporated by using dichroic filters, also referred to as dichroic mirrors, to combine the beams.

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