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docs:comparison_light_sheet_methods [2015/12/28 19:11] Jon Daniels |
docs:comparison_light_sheet_methods [2017/07/20 20:11] (current) Jon Daniels [Commercial Light Sheet Microscopes] |
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===== Comparison of Light Sheet Microscopy Methods ===== | ===== Comparison of Light Sheet Microscopy Methods ===== | ||
+ | |||
+ | ==== Commercial Light Sheet Microscopes ==== | ||
+ | ^ Type ^ # Views ^ Mounting | ||
+ | | diSPIM | ||
+ | | Zeiss Z.1 (similar to OpenSPIM) | ||
+ | | Leica TCS SP8 DLS | 1 fixed | Dish with media | Single proprietary | ||
+ | | 3i Lattice Light Sheet | 1 fixed | Small coverslip in dish | Single proprietary | ||
+ | | LaVision BioTec Ultramicroscope | ||
+ | |||
+ | In general the diSPIM approach is ideal for cells or small groups of cells (e.g. c. elegans embryos). | ||
+ | |||
+ | Instruments which rely on a single fixed view lead to relatively poor axial resolution and poor imaging of scattering samples. | ||
+ | |||
+ | The diSPIM sample mounting is easy and extremely flexible compared with Zeiss/ | ||
+ | |||
+ | ==== Detailed Comparison ==== | ||
* [[: | * [[: | ||
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* two fixed orthogonal views without moving the sample (ideal for fast-moving samples) | * two fixed orthogonal views without moving the sample (ideal for fast-moving samples) | ||
* two views can be combined computationally for isotropic resolution | * two views can be combined computationally for isotropic resolution | ||
- | * scattering slightly mitigated slightly by having two views; typically | + | * scattering slightly mitigated slightly by having two views; typically |
* inverted microscope objective allows simultaneous photomanipulation or other techniques | * inverted microscope objective allows simultaneous photomanipulation or other techniques | ||
* 40x 0.8 NA water-dipping objectives most common (others possible) | * 40x 0.8 NA water-dipping objectives most common (others possible) | ||
- | * yields | + | * yields |
* yields 380 nm lateral resolution at 500 nm wavelength (improved slightly by combining views computationally) | * yields 380 nm lateral resolution at 500 nm wavelength (improved slightly by combining views computationally) | ||
* [[http:// | * [[http:// | ||
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* uses axially-arranged objectives with special mirrors to create orthogonal light sheet | * uses axially-arranged objectives with special mirrors to create orthogonal light sheet | ||
* one fixed view => relatively poor axial resolution, scattering not mitigated | * one fixed view => relatively poor axial resolution, scattering not mitigated | ||
+ | * light sheet parallel to dish bottom, so flat samples must be tilted with respect to dish | ||
* lattice light sheet | * lattice light sheet | ||
* uses structured light sheet " | * uses structured light sheet " | ||
* scattering strongly affects lattice formation as well as imaging; typically <20 um imaging depth | * scattering strongly affects lattice formation as well as imaging; typically <20 um imaging depth | ||
* can obtain sub-diffraction images like SIM by combining multiple exposures with shifted lattice; cost is extra time/dose like SIM | * can obtain sub-diffraction images like SIM by combining multiple exposures with shifted lattice; cost is extra time/dose like SIM | ||
- | * objectives dipped in media from above ([[http:// | + | * objectives dipped in media at angle from above ([[http:// |
- | * 25x 1.1 NA detection objective and custom excitation objective for fixed single-view | + | * 25x 1.1 NA detection objective and custom excitation objective for fixed single-view; axial resolution |
- | * beginning to be commercialized by [[https:// | + | * commercialized by [[https:// |
- | + | ||
- | In general the diSPIM approach is ideal for cells or small groups of cells (e.g. c. elegans embryos). | + | |
Note: if anything here is inaccurate please simply create an account and fix it! | Note: if anything here is inaccurate please simply create an account and fix it! | ||