3D Deconvolution or Not on Fluorescence Stack
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3D Deconvolution or Not on Fluorescence Stack
Here I am going to show you some of my fluorescence stack with 3D deconvolution and the same stack without 3D deconvolution, the differences between them are incredible.
3D Deconvolution
Spirogyra by Rogelio Moreno G., on Flickr
Normal stack
3D Deconvolution
Micrasterias furcata by Rogelio Moreno G., on Flickr
Normal stack
3D Deconvolution
Micrasterias laticeps by Rogelio Moreno G., on Flickr
Normal stack
Let me know if you want to see any other of the 3D deconvolve image that I have posted.
Rogelio
3D Deconvolution
Spirogyra by Rogelio Moreno G., on Flickr
Normal stack
3D Deconvolution
Micrasterias furcata by Rogelio Moreno G., on Flickr
Normal stack
3D Deconvolution
Micrasterias laticeps by Rogelio Moreno G., on Flickr
Normal stack
Let me know if you want to see any other of the 3D deconvolve image that I have posted.
Rogelio
Last edited by RogelioMoreno on Thu Sep 26, 2013 2:42 pm, edited 1 time in total.
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Rogelio, I agree with you--the differences are incredible. Great stuff!
Can you tell us more about the setup you're using for 3D deconvolution? I do see from your flckr stream that you use a Nikon TE300 microscope, but would imagine that there are varied approaches for 3D deconvolution on that instrument. If you've already described this in another thread, I missed it--if so, please just point me to that thread.
Thanks!
--Chris
Can you tell us more about the setup you're using for 3D deconvolution? I do see from your flckr stream that you use a Nikon TE300 microscope, but would imagine that there are varied approaches for 3D deconvolution on that instrument. If you've already described this in another thread, I missed it--if so, please just point me to that thread.
Thanks!
--Chris
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Chris,
For the time being the 3D deconvolution works with fluorescence stack, I will try some darkfield stack of diatoms (I only can do darkfield with my 4x, 10x and 20x so I will do the test with my 20x) and will post the results if they are good. The setup for the fluorescence is:
- Nikon TE300 microscope, the focus (step of each slide) is changed manually.
- Nikon TE-FM fluorescence epi-illuminator
- Nikon TE-FMC cube hoder slider
- Nikon UV-2B cube
- Nikon Plan Apo 20x/0.75 objective
- X-CITE 120PC illuminator, liquid light guide and Exfo collimator for Nikon
Rogelio
For the time being the 3D deconvolution works with fluorescence stack, I will try some darkfield stack of diatoms (I only can do darkfield with my 4x, 10x and 20x so I will do the test with my 20x) and will post the results if they are good. The setup for the fluorescence is:
- Nikon TE300 microscope, the focus (step of each slide) is changed manually.
- Nikon TE-FM fluorescence epi-illuminator
- Nikon TE-FMC cube hoder slider
- Nikon UV-2B cube
- Nikon Plan Apo 20x/0.75 objective
- X-CITE 120PC illuminator, liquid light guide and Exfo collimator for Nikon
Rogelio
Thanks, Rogelio. However, what I'm trying to ask is how you're doing 3D deconvolution with that hardware, which sounds to me as if it could have been used for both the "3D deconvoluted" and "normal" images you posted. Or maybe your equipment list already explains this, but I don't know enough about 3D deconvolution to recognize it?
I've done only limited reading on 3D deconvolution, and am not sure I've understood what I've read. But isn't there additional hardware or software involved in the deconvolution? If so, would you mind explaining it a bit?
Thanks!
--Chris
I've done only limited reading on 3D deconvolution, and am not sure I've understood what I've read. But isn't there additional hardware or software involved in the deconvolution? If so, would you mind explaining it a bit?
Thanks!
--Chris
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Rogelio, these are really nice samples. They completely show off why one of the earliest 3D deconvolution programs was named "HazeBuster".
Chris, the additional stuff is software. Each source frame consists of the sample volume convolved against the 3D point spread function of the optics. What the software does is to take the collection of source frames, plus possibly some calibration data about the optics, and through typically a lot of computation figures out what 3D distribution of point emitters in the subject best explains the observations. Because the observations were generated by convolution, recovering the distribution is called de-convolution. There are a bunch of different mathematical techniques for doing it, each with its own advantages, disadvantages, and results.
Once the 3D subject distribution is recovered, then a new result image is generated directly from that by basically just flattening it.
--Rik
Chris, the additional stuff is software. Each source frame consists of the sample volume convolved against the 3D point spread function of the optics. What the software does is to take the collection of source frames, plus possibly some calibration data about the optics, and through typically a lot of computation figures out what 3D distribution of point emitters in the subject best explains the observations. Because the observations were generated by convolution, recovering the distribution is called de-convolution. There are a bunch of different mathematical techniques for doing it, each with its own advantages, disadvantages, and results.
Once the 3D subject distribution is recovered, then a new result image is generated directly from that by basically just flattening it.
--Rik
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Rik, thank you for the explanation.
As Rik said, the additional stuff is software (cellSens or AutoQuant); but that software works well when the stack has black background. I did a test with a fluorescence stack that the background was not black (the specimen was a plant) and the sofware generated a image with black background so the result was not right; it looks like the software algorithm is not universal (for all kind of images, no matter the background). I will try with darkfield (diatoms slide).
Rogelio
As Rik said, the additional stuff is software (cellSens or AutoQuant); but that software works well when the stack has black background. I did a test with a fluorescence stack that the background was not black (the specimen was a plant) and the sofware generated a image with black background so the result was not right; it looks like the software algorithm is not universal (for all kind of images, no matter the background). I will try with darkfield (diatoms slide).
Rogelio
Last edited by RogelioMoreno on Fri Sep 27, 2013 4:50 am, edited 1 time in total.
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Thank you, Rogelio and Rik. Very glad to have additional detail. Now I can read up on cellSens and Autoquant--the latter, on brief review, looks especially interesting.
Since deconvolution is a portion of what is done in confocal and other enhanced-resolution approaches, I wondered, seeing Rogelio's images, if this were a software-only deconvolution, or a hardware plus software approach. And Web searches are so much better when one has proper search terms--"cellSens" and "Autoquant" return much more target results than "3D deconvolution."
A few questions:
Rogelio, do you mind naming which software you used for these images?
Is the software deconvolution performed on the pre-stacked, individual frames; on the stacked image; or does it compare the individual images of the stack, deconvolve them, and then save altered versions that can then be fed to Zerene Stacker? Edit: Having just watched one of the Autoquant tutorials, it appears that for 3d deconvolution, the answer is the third above.
Does the image have to be a fluorescence image? I often do subjects against a black background, and would be interesting in trying deconvolution on some of them. Edit: From the tutorial, I see that there is also the option of using Autoquant for brightfield images. The images I'm thinking of are more like darkfield, though it's really just oblique backlight. I suspect that unless somebody has tried it, this answer is unknowable.
Am I correct in presuming that 3D deconvolution only improves images taken in a diffraction-limited regime?
Any clue on the price of either of software packages Rogelio named? I may contact the purveyors for a quote, but have a strong suspicion that he answer will make my nose bleed.
Cheers,
--Chris
Since deconvolution is a portion of what is done in confocal and other enhanced-resolution approaches, I wondered, seeing Rogelio's images, if this were a software-only deconvolution, or a hardware plus software approach. And Web searches are so much better when one has proper search terms--"cellSens" and "Autoquant" return much more target results than "3D deconvolution."
A few questions:
Rogelio, do you mind naming which software you used for these images?
Is the software deconvolution performed on the pre-stacked, individual frames; on the stacked image; or does it compare the individual images of the stack, deconvolve them, and then save altered versions that can then be fed to Zerene Stacker? Edit: Having just watched one of the Autoquant tutorials, it appears that for 3d deconvolution, the answer is the third above.
Does the image have to be a fluorescence image? I often do subjects against a black background, and would be interesting in trying deconvolution on some of them. Edit: From the tutorial, I see that there is also the option of using Autoquant for brightfield images. The images I'm thinking of are more like darkfield, though it's really just oblique backlight. I suspect that unless somebody has tried it, this answer is unknowable.
Am I correct in presuming that 3D deconvolution only improves images taken in a diffraction-limited regime?
Any clue on the price of either of software packages Rogelio named? I may contact the purveyors for a quote, but have a strong suspicion that he answer will make my nose bleed.
Cheers,
--Chris
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Chris,
#1 and #3 with AutoQuant X3, not sure about #2 I did a lot of test on that stack.
The 3D deconvolution software use the complete set of slides to try to know the PSF of each slide, the software deconvolve each slide and give the the option to generate projections (the projection can be the sum of all slides, the max value of each slide, the mim value, the mean value, EFI (extended focus image, cellSens), best focus (cellSens)) of the complete set.
I am doing test with darkfield, I will post the result if they are good. I tested the brightfield option with a stack of polarized images and the results were ugly.
The price of AutoQuant is around $7K.
I am not sure; but I think cellSens is around $2K.
Rogelio
#1 and #3 with AutoQuant X3, not sure about #2 I did a lot of test on that stack.
The 3D deconvolution software use the complete set of slides to try to know the PSF of each slide, the software deconvolve each slide and give the the option to generate projections (the projection can be the sum of all slides, the max value of each slide, the mim value, the mean value, EFI (extended focus image, cellSens), best focus (cellSens)) of the complete set.
I am doing test with darkfield, I will post the result if they are good. I tested the brightfield option with a stack of polarized images and the results were ugly.
The price of AutoQuant is around $7K.
I am not sure; but I think cellSens is around $2K.
Rogelio