Re: Assessing phototoxicity in live fluorescence imaging
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Claire Brown |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire |
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0000001ed7f52e4a-dmarc-request |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Claire, Confocals usually blank (switch off) the beam on the return and the power meter averages between the on and off phases. Very slow scans are more accurate an I usually use high zoom. Parking the beam is the better option. Best wishes Andreas -----Original Message----- From: "Claire Brown" <[hidden email]> Sent: 18/07/2017 18:21 To: "[hidden email]" <[hidden email]> Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire |
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Armstrong, Brian |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by Claire Brown
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Claire, I agree with you and I am sorry but I really do not have a clever solution. A few thoughts: I always "park the beam" for measuring power from the objective. I don't think other methods make much sense (as you already pointed out). Fluorescent standards do exist; Argo Light may be one of the better options. There are other less expensive options available as well (i.e., Ted Pella). Kurt Thorn wrote a nice blog on this subject some time ago and you may be able to still read it on-line. Cheers, Brian Armstrong PhD Associate Research Professor Developmental and Stem Cell Biology Diabetes and Metabolic Diseases Director, Light Microscopy Core Beckman Research Institute, City of Hope -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Claire Brown Sent: Tuesday, July 18, 2017 10:20 AM To: [hidden email] Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire --------------------------------------------------------------------- -SECURITY/CONFIDENTIALITY WARNING- This message (and any attachments) are intended solely for the individual or entity to which they are addressed. This communication may contain information that is privileged, confidential, or exempt from disclosure under applicable law (e.g., personal health information, research data, financial information). Because this e-mail has been sent without encryption, individuals other than the intended recipient may be able to view the information, forward it to others or tamper with the information without the knowledge or consent of the sender. If you are not the intended recipient, or the employee or person responsible for delivering the message to the intended recipient, any dissemination, distribution or copying of the communication is strictly prohibited. If you received the communication in error, please notify the sender immediately by replying to this message and deleting the message and any accompanying files from your system. If, due to the security risks, you do not wish to receive further communications via e-mail, please reply to this message and inform the sender that you do not wish to receive further e-mail from the sender. (LCP301) --------------------------------------------------------------------- |
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Craig Brideau |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by 0000001ed7f52e4a-dmarc-request
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** I've noted the effect Andreas mentions quite often. I usually set the pixel dwell time to the maximum such that the laser will spend the longest time possible scanning out a single line, but even then the flyback can disturb the reading. The best way is to park the mirrors in the center position, although not all systems allow you to do that. Nikon's old C1 platform allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not sure about other vendors, but I'm sure others can chime in with their experiences. Craig On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < [hidden email]> wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Hi Claire, > Confocals usually blank (switch off) the beam on the return and the power > meter averages between the on and off phases. Very slow scans are more > accurate an I usually use high zoom. Parking the beam is the better option. > > Best wishes > > Andreas > > -----Original Message----- > From: "Claire Brown" <[hidden email]> > Sent: 18/07/2017 18:21 > To: "[hidden email]" <[hidden email]> > Subject: Re: Assessing phototoxicity in live fluorescence imaging > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Thank you for this great article and pointing to many great resources. > I wanted to bring up one issue we have had when trying to work on > different microscope and compare light density/exposure. > > For the CLSM microscopes when we use a power meter at the focal plan the > power we measure depends a lot on the scan settings. > If we park the beam as a point we get one power. If we go to a 100x100 > pixel array at zoom 1 with a 10x lens the power is different. if we change > the scan speed the power is different again. I suspect this is related to > how the power meter integrates the light over time and also how sensitive > it is spatially across the sensor. We have decide to just quote our power > as the power we measure at the power meter with set conditions and we > detail those conditions in our materials and methods section of the paper. > We try to use a 10x/0.3 planfluar lens with no phase optics if we can. > > We have stayed away from trying to calculate the power at the sample > because a lot of assumptions have to be made. The assumptions may be > different for wide-field versus CLSM versus light sheet versus spinning > disk and so on. > > We ran into these issues when just trying to repeat measurements on two > different confocals from two different manufacturers. It can really get > quite complex. > > Does anyone have thoughts on this issue? Any cleaver solutions? It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. > > Ideally, it would be good for the manufacturers to have some kind of laser > power measurement in the instrument and software that is always monitored. > Even if this is just a relative value to the actual power at the sample it > would really improve quantitative microscopy and also help in maintenance > and trouble shooting equipment. I'm not sure about others but this kind of > a feature would really be a strong selling point for me and the core > facilities I manage. In many cases these options are already built into the > hardware for the service engineers but are not accessible to the end user. > > > Sincerely, > > Claire > |
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Steffen Dietzel |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Unfortunately not a solution, but a further complication: As far as I know, power meters are made to detect light that hits the sensor orthogonally. So with a high NA lens, a lot of the incident light won't be even detected. I guess what one could do is to measure a) the power without objective with a parked beam, focusing on a spot in the center of the field of view. This would give the upper estimate but not the true intensity since some of it is absorbed by the objective itself. Transmittance is never 100%. b) doing the same with the objective that is to be used. This will give the lower estimate. Too low, since part of the light won't be measured due to the incident angle. The truth then is somewhere between the two values. With modern high NA objectives which should have a high transmission my gut feeling is that the truth would be closer to (a) than to (b). You could take value (a) and correct it the transmission of the objective at the given wavelength published by the manufacturer, if that is available. But I don't think I have ever seen a paper that actually did all that. Whatever value you take, as Andreas suggested you then would have to relate it to the true pixel dwell time, i.e. disregarding dead time of the scanner. To get the exact value at the focal point in the sample also would require to take the losses due to reflection at the coverslip into account. In essence, I am definitely with Claire when she says: > It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. The Leica SP8 systems do allow to park the beam, as Craig suspected. Since I always forget how to do that I put the procedure on our web site, where I can easily find it :-) http://www.bioimaging.bmc.med.uni-muenchen.de/manuals-protocols/maintenance_protocolls/laserpower/index.html Cheers Steffen Am 19.07.2017 um 00:24 schrieb Craig Brideau: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > I've noted the effect Andreas mentions quite often. I usually set the pixel > dwell time to the maximum such that the laser will spend the longest time > possible scanning out a single line, but even then the flyback can disturb > the reading. The best way is to park the mirrors in the center position, > although not all systems allow you to do that. Nikon's old C1 platform > allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not > sure about other vendors, but I'm sure others can chime in with their > experiences. > > Craig > > On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < > [hidden email]> wrote: > >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Hi Claire, >> Confocals usually blank (switch off) the beam on the return and the power >> meter averages between the on and off phases. Very slow scans are more >> accurate an I usually use high zoom. Parking the beam is the better option. >> >> Best wishes >> >> Andreas >> >> -----Original Message----- >> From: "Claire Brown" <[hidden email]> >> Sent: 18/07/2017 18:21 >> To: "[hidden email]" <[hidden email]> >> Subject: Re: Assessing phototoxicity in live fluorescence imaging >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Thank you for this great article and pointing to many great resources. >> I wanted to bring up one issue we have had when trying to work on >> different microscope and compare light density/exposure. >> >> For the CLSM microscopes when we use a power meter at the focal plan the >> power we measure depends a lot on the scan settings. >> If we park the beam as a point we get one power. If we go to a 100x100 >> pixel array at zoom 1 with a 10x lens the power is different. if we change >> the scan speed the power is different again. I suspect this is related to >> how the power meter integrates the light over time and also how sensitive >> it is spatially across the sensor. We have decide to just quote our power >> as the power we measure at the power meter with set conditions and we >> detail those conditions in our materials and methods section of the paper. >> We try to use a 10x/0.3 planfluar lens with no phase optics if we can. >> >> We have stayed away from trying to calculate the power at the sample >> because a lot of assumptions have to be made. The assumptions may be >> different for wide-field versus CLSM versus light sheet versus spinning >> disk and so on. >> >> We ran into these issues when just trying to repeat measurements on two >> different confocals from two different manufacturers. It can really get >> quite complex. >> >> Does anyone have thoughts on this issue? Any cleaver solutions? It is my >> thought that comparing relative powers on the same instrument is okay but >> comparing between systems will be very complex. >> >> Ideally, it would be good for the manufacturers to have some kind of laser >> power measurement in the instrument and software that is always monitored. >> Even if this is just a relative value to the actual power at the sample it >> would really improve quantitative microscopy and also help in maintenance >> and trouble shooting equipment. I'm not sure about others but this kind of >> a feature would really be a strong selling point for me and the core >> facilities I manage. In many cases these options are already built into the >> hardware for the service engineers but are not accessible to the end user. >> >> >> Sincerely, >> >> Claire >> ------------------------------------------------------------ Steffen Dietzel, PD Dr. rer. nat Ludwig-Maximilians-Universität München Biomedical Center (BMC) Head of the Core Facility Bioimaging Großhaderner Straße 9 D-82152 Planegg-Martinsried Germany http://www.bioimaging.bmc.med.uni-muenchen.de |
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Cole, Richard W (HEALTH) |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by Claire Brown
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** What I do when I REALLY need to measure/know power (not for the faint of heart). Works on all imaging modalities, albeit w/some minor tweaks. I detailed this in a paper which I can dig up an anyone is interested. Basics: use match pair of immersion objectives configured such that the emitted light from one objective is collected by the 2nd and a power meter measures the light emitted from the 2nd objective. I typical use a double coverslip dye sandwich for alignment and then remove for the final measurement. CLSM tweaks: bidirectional collection or park, zoom >2.5, longest dwell time/slowest scan speed Cautions: check all filter cubes/ AOTF settings check illumination stability before starting Richard Cole Research Scientist V Director: Advanced Light Microscopy & Image Analysis Core Wadsworth Center Research Assistant Professor Dept. of Biomedical Sciences School of Public Health State University of New York 120 New Scotland Avenue, Albany N.Y. 12208 518-474-7048 Phone 518-408-1730 Fax Website http://www.wadsworth.org/research/cores/alm twitter.com/microscopejock |
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Zdenek Svindrych-2 |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by Steffen Dietzel
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Steffen, you can improve the accuracy of the method "a)" (that is measuring the laser power before reaching the objective) greatly by mounting an iris stop in place of the lens, adjusting the aperture to equal the diameter of the back focal plane (BFP) aperture of the objective lens, and measuring the power of the light that gets through this aperture. Most confocal microscopes 'overfill' the BFP greatly (which is good for resolution) and you can get an order of magnitude difference when the laser beam is > 15 mm 'diameter' (it's gaussian profile) and the BFP diameter is just 4 mm (e.g. some high-magnification lenses). You can determine the BFP diameter by looking at the back of the lens, or by dong some simple math (I guess diameter = 2 * NA * focal_length; focal_ length = tube_lens_focal_lenght / magnification). This way, your a) and b) results should be much closer to each other and to the real value in between... Best, zdenek -- Zdenek Svindrych, Ph.D. W.M. Keck Center for Cellular Imaging (PLSB 003) Department of Biology,University of Virginia 409 McCormick Rd, Charlottesville, VA-22904 http://www.kcci.virginia.edu/ tel: 434-982-4869 ---------- Původní e-mail ---------- Od: Steffen Dietzel <[hidden email]> Komu: [hidden email] Datum: 19. 7. 2017 7:03:20 Předmět: Re: Assessing phototoxicity in live fluorescence imaging "***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Unfortunately not a solution, but a further complication: As far as I know, power meters are made to detect light that hits the sensor orthogonally. So with a high NA lens, a lot of the incident light won't be even detected. I guess what one could do is to measure a) the power without objective with a parked beam, focusing on a spot in the center of the field of view. This would give the upper estimate but not the true intensity since some of it is absorbed by the objective itself. Transmittance is never 100%. b) doing the same with the objective that is to be used. This will give the lower estimate. Too low, since part of the light won't be measured due to the incident angle. The truth then is somewhere between the two values. With modern high NA objectives which should have a high transmission my gut feeling is that the truth would be closer to (a) than to (b). You could take value (a) and correct it the transmission of the objective at the given wavelength published by the manufacturer, if that is available. But I don't think I have ever seen a paper that actually did all that. Whatever value you take, as Andreas suggested you then would have to relate it to the true pixel dwell time, i.e. disregarding dead time of the scanner. To get the exact value at the focal point in the sample also would require to take the losses due to reflection at the coverslip into account. In essence, I am definitely with Claire when she says: > It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. The Leica SP8 systems do allow to park the beam, as Craig suspected. Since I always forget how to do that I put the procedure on our web site, where I can easily find it :-) http://www.bioimaging.bmc.med.uni-muenchen.de/manuals-protocols/maintenance_ protocolls/laserpower/index.html Cheers Steffen Am 19.07.2017 um 00:24 schrieb Craig Brideau: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > I've noted the effect Andreas mentions quite often. I usually set the pixel > dwell time to the maximum such that the laser will spend the longest time > possible scanning out a single line, but even then the flyback can disturb > the reading. The best way is to park the mirrors in the center position, > although not all systems allow you to do that. Nikon's old C1 platform > allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not > sure about other vendors, but I'm sure others can chime in with their > experiences. > > Craig > > On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < > [hidden email]> wrote: > >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Hi Claire, >> Confocals usually blank (switch off) the beam on the return and the power >> meter averages between the on and off phases. Very slow scans are more >> accurate an I usually use high zoom. Parking the beam is the better option. >> >> Best wishes >> >> Andreas >> >> -----Original Message----- >> From: "Claire Brown" <[hidden email]> >> Sent: 18/07/2017 18:21 >> To: "[hidden email]" <[hidden email]> >> Subject: Re: Assessing phototoxicity in live fluorescence imaging >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Thank you for this great article and pointing to many great resources. >> I wanted to bring up one issue we have had when trying to work on >> different microscope and compare light density/exposure. >> >> For the CLSM microscopes when we use a power meter at the focal plan the >> power we measure depends a lot on the scan settings. >> If we park the beam as a point we get one power. If we go to a 100x100 >> pixel array at zoom 1 with a 10x lens the power is different. if we >> the scan speed the power is different again. I suspect this is related to >> how the power meter integrates the light over time and also how sensitive >> it is spatially across the sensor. We have decide to just quote our power >> as the power we measure at the power meter with set conditions and we >> detail those conditions in our materials and methods section of the paper. >> We try to use a 10x/0.3 planfluar lens with no phase optics if we can. >> >> We have stayed away from trying to calculate the power at the sample >> because a lot of assumptions have to be made. The assumptions may be >> different for wide-field versus CLSM versus light sheet versus spinning >> disk and so on. >> >> We ran into these issues when just trying to repeat measurements on two >> different confocals from two different manufacturers. It can really get >> quite complex. >> >> Does anyone have thoughts on this issue? Any cleaver solutions? It is my >> thought that comparing relative powers on the same instrument is okay but >> comparing between systems will be very complex. >> >> Ideally, it would be good for the manufacturers to have some kind of laser >> power measurement in the instrument and software that is always monitored. >> Even if this is just a relative value to the actual power at the sample it >> would really improve quantitative microscopy and also help in maintenance >> and trouble shooting equipment. I'm not sure about others but this kind of >> a feature would really be a strong selling point for me and the core >> facilities I manage. In many cases these options are already built into the >> hardware for the service engineers but are not accessible to the end user. >> >> >> Sincerely, >> >> Claire >> -- ------------------------------------------------------------ Steffen Dietzel, PD Dr. rer. nat Ludwig-Maximilians-Universität München Biomedical Center (BMC) Head of the Core Facility Bioimaging Großhaderner Straße 9 D-82152 Planegg-Martinsried Germany http://www.bioimaging.bmc.med.uni-muenchen.de " |
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Guillermo Marques |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by Craig Brideau
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Olympus Fluoview 1000 allows parking of the beam, Nikon A1R does not. Guillermo Marqués University of Minnesota Twin Cities Campus University Imaging Centers Nikon Center of Excellence www.uic.umn.edu http://uic.umn.edu/content/locations Any work utilizing UIC equipment or staff support must acknowledge the University Imaging Centers in publications and presentations. > On Jul 18, 2017, at 5:24 PM, Craig Brideau <[hidden email]> wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > I've noted the effect Andreas mentions quite often. I usually set the pixel > dwell time to the maximum such that the laser will spend the longest time > possible scanning out a single line, but even then the flyback can disturb > the reading. The best way is to park the mirrors in the center position, > although not all systems allow you to do that. Nikon's old C1 platform > allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not > sure about other vendors, but I'm sure others can chime in with their > experiences. > > Craig > > On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < > [hidden email]> wrote: > >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Hi Claire, >> Confocals usually blank (switch off) the beam on the return and the power >> meter averages between the on and off phases. Very slow scans are more >> accurate an I usually use high zoom. Parking the beam is the better option. >> >> Best wishes >> >> Andreas >> >> -----Original Message----- >> From: "Claire Brown" <[hidden email]> >> Sent: 18/07/2017 18:21 >> To: "[hidden email]" <[hidden email]> >> Subject: Re: Assessing phototoxicity in live fluorescence imaging >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Thank you for this great article and pointing to many great resources. >> I wanted to bring up one issue we have had when trying to work on >> different microscope and compare light density/exposure. >> >> For the CLSM microscopes when we use a power meter at the focal plan the >> power we measure depends a lot on the scan settings. >> If we park the beam as a point we get one power. If we go to a 100x100 >> pixel array at zoom 1 with a 10x lens the power is different. if we change >> the scan speed the power is different again. I suspect this is related to >> how the power meter integrates the light over time and also how sensitive >> it is spatially across the sensor. We have decide to just quote our power >> as the power we measure at the power meter with set conditions and we >> detail those conditions in our materials and methods section of the paper. >> We try to use a 10x/0.3 planfluar lens with no phase optics if we can. >> >> We have stayed away from trying to calculate the power at the sample >> because a lot of assumptions have to be made. The assumptions may be >> different for wide-field versus CLSM versus light sheet versus spinning >> disk and so on. >> >> We ran into these issues when just trying to repeat measurements on two >> different confocals from two different manufacturers. It can really get >> quite complex. >> >> Does anyone have thoughts on this issue? Any cleaver solutions? It is my >> thought that comparing relative powers on the same instrument is okay but >> comparing between systems will be very complex. >> >> Ideally, it would be good for the manufacturers to have some kind of laser >> power measurement in the instrument and software that is always monitored. >> Even if this is just a relative value to the actual power at the sample it >> would really improve quantitative microscopy and also help in maintenance >> and trouble shooting equipment. I'm not sure about others but this kind of >> a feature would really be a strong selling point for me and the core >> facilities I manage. In many cases these options are already built into the >> hardware for the service engineers but are not accessible to the end user. >> >> >> Sincerely, >> >> Claire >> |
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PEARSON Matthew |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** I'm sure i've parked the beam on our Nikon A1, you can set a single pixel as an ROI and only image at that point, thus not scanning with the galvo's. Its in the simple ROI editor and is a crosshair icon, can't remember what its called, bleach point or something like that. -- Matt Pearson Microscopy Facility MRC Human Genetics Unit Institute of Genetics and Molecular Medicine (IGMM) University of Edinburgh Crewe Road EH4 2XU On 19 Jul 2017, at 14:57, Guillermo Marques <[hidden email]<mailto:[hidden email]>> wrote: ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Olympus Fluoview 1000 allows parking of the beam, Nikon A1R does not. Guillermo Marqués University of Minnesota Twin Cities Campus University Imaging Centers Nikon Center of Excellence www.uic.umn.edu http://uic.umn.edu/content/locations Any work utilizing UIC equipment or staff support must acknowledge the University Imaging Centers in publications and presentations. On Jul 18, 2017, at 5:24 PM, Craig Brideau <[hidden email]> wrote: ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** I've noted the effect Andreas mentions quite often. I usually set the pixel dwell time to the maximum such that the laser will spend the longest time possible scanning out a single line, but even then the flyback can disturb the reading. The best way is to park the mirrors in the center position, although not all systems allow you to do that. Nikon's old C1 platform allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not sure about other vendors, but I'm sure others can chime in with their experiences. Craig On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < [hidden email]> wrote: ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Claire, Confocals usually blank (switch off) the beam on the return and the power meter averages between the on and off phases. Very slow scans are more accurate an I usually use high zoom. Parking the beam is the better option. Best wishes Andreas -----Original Message----- From: "Claire Brown" <[hidden email]> Sent: 18/07/2017 18:21 To: "[hidden email]" <[hidden email]> Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** The University of Edinburgh is a charitable body, registered in Scotland, with registration number SC005336. |
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Guillermo Marques |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Correct. You can select a point ROI for photostimulation. But you cannot image that point. For measuring the laser power it may work. Guillermo Marqués University of Minnesota Twin Cities Campus University Imaging Centers Nikon Center of Excellence www.uic.umn.edu http://uic.umn.edu/content/locations Any work utilizing UIC equipment or staff support must acknowledge the University Imaging Centers in publications and presentations. > On Jul 19, 2017, at 9:11 AM, PEARSON Matthew <[hidden email]> wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > I'm sure i've parked the beam on our Nikon A1, you can set a single pixel as an ROI and only image at that point, thus not scanning with the galvo's. Its in the simple ROI editor and is a crosshair icon, can't remember what its called, bleach point or something like that. > > -- > Matt Pearson > Microscopy Facility > MRC Human Genetics Unit > Institute of Genetics and Molecular Medicine (IGMM) > University of Edinburgh > Crewe Road > EH4 2XU > > > > > On 19 Jul 2017, at 14:57, Guillermo Marques <[hidden email]<mailto:[hidden email]>> > wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Olympus Fluoview 1000 allows parking of the beam, Nikon A1R does not. > Guillermo Marqués > University of Minnesota > Twin Cities Campus > University Imaging Centers > Nikon Center of Excellence > www.uic.umn.edu > http://uic.umn.edu/content/locations > Any work utilizing UIC equipment or staff support must acknowledge the University Imaging Centers in publications and presentations. > > > On Jul 18, 2017, at 5:24 PM, Craig Brideau <[hidden email]> wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > I've noted the effect Andreas mentions quite often. I usually set the pixel > dwell time to the maximum such that the laser will spend the longest time > possible scanning out a single line, but even then the flyback can disturb > the reading. The best way is to park the mirrors in the center position, > although not all systems allow you to do that. Nikon's old C1 platform > allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not > sure about other vendors, but I'm sure others can chime in with their > experiences. > > Craig > > On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < > [hidden email]> wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Hi Claire, > Confocals usually blank (switch off) the beam on the return and the power > meter averages between the on and off phases. Very slow scans are more > accurate an I usually use high zoom. Parking the beam is the better option. > > Best wishes > > Andreas > > -----Original Message----- > From: "Claire Brown" <[hidden email]> > Sent: 18/07/2017 18:21 > To: "[hidden email]" <[hidden email]> > Subject: Re: Assessing phototoxicity in live fluorescence imaging > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Thank you for this great article and pointing to many great resources. > I wanted to bring up one issue we have had when trying to work on > different microscope and compare light density/exposure. > > For the CLSM microscopes when we use a power meter at the focal plan the > power we measure depends a lot on the scan settings. > If we park the beam as a point we get one power. If we go to a 100x100 > pixel array at zoom 1 with a 10x lens the power is different. if we change > the scan speed the power is different again. I suspect this is related to > how the power meter integrates the light over time and also how sensitive > it is spatially across the sensor. We have decide to just quote our power > as the power we measure at the power meter with set conditions and we > detail those conditions in our materials and methods section of the paper. > We try to use a 10x/0.3 planfluar lens with no phase optics if we can. > > We have stayed away from trying to calculate the power at the sample > because a lot of assumptions have to be made. The assumptions may be > different for wide-field versus CLSM versus light sheet versus spinning > disk and so on. > > We ran into these issues when just trying to repeat measurements on two > different confocals from two different manufacturers. It can really get > quite complex. > > Does anyone have thoughts on this issue? Any cleaver solutions? It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. > > Ideally, it would be good for the manufacturers to have some kind of laser > power measurement in the instrument and software that is always monitored. > Even if this is just a relative value to the actual power at the sample it > would really improve quantitative microscopy and also help in maintenance > and trouble shooting equipment. I'm not sure about others but this kind of > a feature would really be a strong selling point for me and the core > facilities I manage. In many cases these options are already built into the > hardware for the service engineers but are not accessible to the end user. > > > Sincerely, > > Claire > > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > The University of Edinburgh is a charitable body, registered in > Scotland, with registration number SC005336. |
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James Pawley |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by Zdenek Svindrych-2
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Even the simplest things aren’t. Steffen is quite right about the power meter assuming (almost) normal incidence. You might think you could reduce this problem by putting immersion oil between the high-NA objective and the sensor surface, however, in many power meters, the silicon detector is separated from the protective cover glass by an air gap, so this doesn’t work (although you might be able to get around this by using a home-made power meter consisting of a small “oilable” silicon solar cell from the electronics store connected to a current meter. But you would have to make sure that no stray room light hits this usually rather large cell and you would also have to calibrate it against a “real” power meter while remembering to correct for their different areas…) The official way to do this measurement is to set up the microscope optics for Kohler Illumination using an oiled condenser with an NA at least as high as that of the objective. Assuming that there is no specimen in the way, the light emerging from the condenser should be parallel to the axis. Of course, you will still have reflection and absorption losses in the condenser and if you are doing this in wide field, the setting of the field diaphragm will have a massive effect (the transmitted power will be proportional to the area of the image plane illuminated by the field diaphragm). You will also have to be sure that the ray bundle from the condenser isn’t larger than your sensor. On the other hand, as few scopes are set up with the required high-NA oiled condenser, it is common to fall back on the “10X low-NA” option. Although this can provide fairly consistent day-to-day readings, you should NOT assume that you can just apply this reading to what would have emerged from a high-NA objective of higher magnification. This is because the illumination system is set up to provide a beam of a certain size in the BFP of the objective (in the space between the back of an infinity-corrected objective and the tube lens). This beam is usually roughly Gaussian in shape and its size is a compromise between the need to “fill the NA” of the “best lens” with fair uniformity and the desire not to waste too much light hitting the metal mounting of the optics (and then scattering all over the place causing "stray light”). The problem is that “filling the NA” of, say a 40x 1.3 objective requires a beam diameter that is 2.5x larger (and 6.25 larger in area) than would be required for a 100x 1.3 objective. This is why early confocals often got better resolution with higher mag objectives:The ray bundle just didn’t fill the BFP of the lower-mag objectives. Conversely, they often got better “penetration” when using oil lenses into aqueous specimens when using the low-mag objectives: spherical aberration increases rapidly with NA and by being underfilled, the lower mag objectives were actually operating at a lower NA (at least on the illumination side). So, although you can use the "10x low-NA" trick for monitoring day-to-day performance, you will probably need to use the Kohler set-up at least once to determine how the illumination optics in your scope fills the BFP. (It won’t work just to assume that the 40x 1.3 should pass 6.25x more light than the 100x 1.3 because, even if the beam is large at the BFP, it is still a Gaussian and brighter in the centre.) Basically, you need to determine the real conversion factors between your low-NA 10x and all your other objectives. Even using a “dry" NA 0.9 condenser is better than trying to measure the convergent/divergent spot from a high NA objective. Try it with something like a 1.3 NA 40x oil (or a 0.5NA 10x dry) and, after you have set up Kohler using the normal transmitted light optics, open the condenser aperture to 0.9, turn off the transmitted source and turn on the epi-illumination (laser or WF) and hold a piece of white paper in the beam coming out of the condenser. You should see a bright blob and this blob may not even extend as far as NA 0.9 (which you can determine by moving the condenser aperture control to see if the edges of the blob are cut off by a sharp, black edge.) Knowing the size of this blob can help you at least estimate how much of the other objectives will be "filled." I hope that this isn’t all too complicated and therefore disappointing because I think that, particularly when working with living cells, nothing is more important than knowing how much light hit the specimen while you collected your images. So please persist! Jm Pawley James and Christine Pawley, 5446 Burley Place, Box 2348, Sechelt BC, Canada, V0N3A0 [hidden email]<mailto:[hidden email]>, Phone 1-604-885-0840, cell 1-604-989-6146 James and Christine Pawley, 5446 Burley Place, Box 2348, Sechelt BC, Canada, V0N3A0 [hidden email]<mailto:[hidden email]>, Phone 1-604-885-0840, cell 1-604-989-6146 On Jul 19, 2017, at 6:55 AM, [hidden email]<mailto:[hidden email]> wrote: ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Steffen, you can improve the accuracy of the method "a)" (that is measuring the laser power before reaching the objective) greatly by mounting an iris stop in place of the lens, adjusting the aperture to equal the diameter of the back focal plane (BFP) aperture of the objective lens, and measuring the power of the light that gets through this aperture. Most confocal microscopes 'overfill' the BFP greatly (which is good for resolution) and you can get an order of magnitude difference when the laser beam is > 15 mm 'diameter' (it's gaussian profile) and the BFP diameter is just 4 mm (e.g. some high-magnification lenses). You can determine the BFP diameter by looking at the back of the lens, or by dong some simple math (I guess diameter = 2 * NA * focal_length; focal_ length = tube_lens_focal_lenght / magnification). This way, your a) and b) results should be much closer to each other and to the real value in between... Best, zdenek -- Zdenek Svindrych, Ph.D. W.M. Keck Center for Cellular Imaging (PLSB 003) Department of Biology,University of Virginia 409 McCormick Rd, Charlottesville, VA-22904 http://www.kcci.virginia.edu/ tel: 434-982-4869 ---------- Původní e-mail ---------- Od: Steffen Dietzel <[hidden email]> Komu: [hidden email] Datum: 19. 7. 2017 7:03:20 Předmět: Re: Assessing phototoxicity in live fluorescence imaging "***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Unfortunately not a solution, but a further complication: As far as I know, power meters are made to detect light that hits the sensor orthogonally. So with a high NA lens, a lot of the incident light won't be even detected. I guess what one could do is to measure a) the power without objective with a parked beam, focusing on a spot in the center of the field of view. This would give the upper estimate but not the true intensity since some of it is absorbed by the objective itself. Transmittance is never 100%. b) doing the same with the objective that is to be used. This will give the lower estimate. Too low, since part of the light won't be measured due to the incident angle. The truth then is somewhere between the two values. With modern high NA objectives which should have a high transmission my gut feeling is that the truth would be closer to (a) than to (b). You could take value (a) and correct it the transmission of the objective at the given wavelength published by the manufacturer, if that is available. But I don't think I have ever seen a paper that actually did all that. Whatever value you take, as Andreas suggested you then would have to relate it to the true pixel dwell time, i.e. disregarding dead time of the scanner. To get the exact value at the focal point in the sample also would require to take the losses due to reflection at the coverslip into account. In essence, I am definitely with Claire when she says: It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. The Leica SP8 systems do allow to park the beam, as Craig suspected. Since I always forget how to do that I put the procedure on our web site, where I can easily find it :-) http://www.bioimaging.bmc.med.uni-muenchen.de/manuals-protocols/maintenance_ protocolls/laserpower/index.html Cheers Steffen Am 19.07.2017 um 00:24 schrieb Craig Brideau: ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** I've noted the effect Andreas mentions quite often. I usually set the pixel dwell time to the maximum such that the laser will spend the longest time possible scanning out a single line, but even then the flyback can disturb the reading. The best way is to park the mirrors in the center position, although not all systems allow you to do that. Nikon's old C1 platform allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not sure about other vendors, but I'm sure others can chime in with their experiences. Craig On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < [hidden email]> wrote: ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Claire, Confocals usually blank (switch off) the beam on the return and the power meter averages between the on and off phases. Very slow scans are more accurate an I usually use high zoom. Parking the beam is the better option. Best wishes Andreas -----Original Message----- From: "Claire Brown" <[hidden email]> Sent: 18/07/2017 18:21 To: "[hidden email]" <[hidden email]> Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire -- ------------------------------------------------------------ Steffen Dietzel, PD Dr. rer. nat Ludwig-Maximilians-Universität München Biomedical Center (BMC) Head of the Core Facility Bioimaging Großhaderner Straße 9 D-82152 Planegg-Martinsried Germany http://www.bioimaging.bmc.med.uni-muenchen.de " |
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George McNamara |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** My 2 paragraphs: 1. Confocal microscopes: measure the signal from a coverglass, using reflection mode (low laser power!). If ambitious, measure with different pinhole sizes. Zeiss has an RT80/20 (which I hope means 20% reflection, 80% transmission), Olympus FV3000 has 10/90 (reflection/transmission). 2. Widefield microscopes, excitation side, http://www.epitechnology.com manufactures (3D prints) filter cubes with a mirror in place of the dichroic, and facing the 'other way', to enable imaging the lamp (or LLG or fiber) onto the detector -- which you (or someone else) paid (a lot of) money for, and should be quantitative. Examples of what you'll see are shown on http://www.epitechnology.com/epitechnology-1/ enjoy, George On 7/19/2017 4:08 PM, JAMES B PAWLEY wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Even the simplest things aren’t. > > Steffen is quite right about the power meter assuming (almost) normal incidence. You might think you could reduce this problem by putting immersion oil between the high-NA objective and the sensor surface, however, in many power meters, the silicon detector is separated from the protective cover glass by an air gap, so this doesn’t work (although you might be able to get around this by using a home-made > power meter consisting of a small “oilable” silicon solar cell from the electronics store connected to a current meter. But you would have to make sure that no stray room light hits this usually rather large cell and you would also have to calibrate it against a “real” power meter while remembering to correct for their different areas…) > > The official way to do this measurement is to set up the microscope optics for Kohler Illumination using an oiled condenser with an NA at least as high as that of the objective. Assuming that there is no specimen in the way, the light emerging from the condenser should be parallel to the axis. Of course, you will still have reflection and absorption losses in the condenser and if you are doing this in wide field, the setting of the field diaphragm will have a massive effect (the transmitted power will be proportional to the area of the image plane illuminated by the field diaphragm). You will also have to be sure that the ray bundle from the condenser isn’t larger than your sensor. > > On the other hand, as few scopes are set up with the required high-NA oiled condenser, it is common to fall back on the “10X low-NA” option. > > Although this can provide fairly consistent day-to-day readings, you should NOT assume that you can just apply this reading to what would have emerged from a high-NA objective of higher magnification. This is because the illumination system is set up to provide a beam of a certain size in the BFP of the objective (in the space between the back of an infinity-corrected objective and the tube lens). This beam is usually roughly Gaussian in shape and its size is a compromise between the need to “fill the NA” of the “best lens” with fair uniformity and the desire not to waste too much light hitting the metal mounting of the optics (and then scattering all over the place causing "stray light”). > > The problem is that “filling the NA” of, say a 40x 1.3 objective requires a beam diameter that is 2.5x larger (and 6.25 larger in area) than would be required for a 100x 1.3 objective. This is why early confocals often got better resolution with higher mag objectives:The ray bundle just didn’t fill the BFP of the lower-mag objectives. Conversely, they often got better “penetration” when using oil lenses into aqueous specimens when using the low-mag objectives: spherical aberration increases rapidly with NA and by being underfilled, the lower mag objectives were actually operating at a lower NA (at least on the illumination side). > > So, although you can use the "10x low-NA" trick for monitoring day-to-day performance, you will probably need to use the Kohler set-up at least once to determine how the illumination optics in your scope fills the BFP. (It won’t work just to assume that the 40x 1.3 should pass 6.25x more light than the 100x 1.3 because, even if the beam is large at the BFP, it is still a Gaussian and brighter in the centre.) Basically, you need to determine the real conversion factors between your low-NA 10x and all your other objectives. > > Even using a “dry" NA 0.9 condenser is better than trying to measure the convergent/divergent spot from a high NA objective. Try it with something like a 1.3 NA 40x oil (or a 0.5NA 10x dry) and, after you have set up Kohler using the normal transmitted light optics, open the condenser aperture to 0.9, turn off the transmitted source and turn on the epi-illumination (laser or WF) and hold a piece of white paper in the beam coming out of the condenser. You should see a bright blob and this blob may not even extend as far as NA 0.9 (which you can determine by moving the condenser aperture control to see if the edges of the blob are cut off by a sharp, black edge.) Knowing the size of this blob can help you at least estimate how much of the other objectives will be "filled." > > I hope that this isn’t all too complicated and therefore disappointing because I think that, particularly when working with living cells, nothing is more important than knowing how much light hit the specimen while you collected your images. > > So please persist! > > Jm Pawley > > James and Christine Pawley, 5446 Burley Place, Box 2348, Sechelt BC, Canada, V0N3A0 [hidden email]<mailto:[hidden email]>, Phone 1-604-885-0840, cell 1-604-989-6146 > > James and Christine Pawley, 5446 Burley Place, Box 2348, Sechelt BC, Canada, V0N3A0 [hidden email]<mailto:[hidden email]>, Phone 1-604-885-0840, cell 1-604-989-6146 > > > > On Jul 19, 2017, at 6:55 AM, [hidden email]<mailto:[hidden email]> wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Hi Steffen, > you can improve the accuracy of the method "a)" (that is measuring the laser > power before reaching the objective) greatly by mounting an iris stop in > place of the lens, adjusting the aperture to equal the diameter of the back > focal plane (BFP) aperture of the objective lens, and measuring the power of > the light that gets through this aperture. > > Most confocal microscopes 'overfill' the BFP greatly (which is good for > resolution) and you can get an order of magnitude difference when the laser > beam is > 15 mm 'diameter' (it's gaussian profile) and the BFP diameter is > just 4 mm (e.g. some high-magnification lenses). > > You can determine the BFP diameter by looking at the back of the lens, or by > dong some simple math (I guess diameter = 2 * NA * focal_length; focal_ > length = tube_lens_focal_lenght / magnification). > > This way, your a) and b) results should be much closer to each other and to > the real value in between... > > Best, zdenek > > -- > Zdenek Svindrych, Ph.D. > W.M. Keck Center for Cellular Imaging (PLSB 003) > Department of Biology,University of Virginia > 409 McCormick Rd, Charlottesville, VA-22904 > http://www.kcci.virginia.edu/ > tel: 434-982-4869 > > ---------- Původní e-mail ---------- > Od: Steffen Dietzel <[hidden email]> > Komu: [hidden email] > Datum: 19. 7. 2017 7:03:20 > Předmět: Re: Assessing phototoxicity in live fluorescence imaging > "***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Unfortunately not a solution, but a further complication: As far as I > know, power meters are made to detect light that hits the sensor > orthogonally. So with a high NA lens, a lot of the incident light won't > be even detected. > > I guess what one could do is to measure > > a) the power without objective with a parked beam, focusing on a spot in > the center of the field of view. This would give the upper estimate but > not the true intensity since some of it is absorbed by the objective > itself. Transmittance is never 100%. > > b) doing the same with the objective that is to be used. This will give > the lower estimate. Too low, since part of the light won't be measured > due to the incident angle. > > The truth then is somewhere between the two values. With modern high NA > objectives which should have a high transmission my gut feeling is that > the truth would be closer to (a) than to (b). > > You could take value (a) and correct it the transmission of the > objective at the given wavelength published by the manufacturer, if that > is available. But I don't think I have ever seen a paper that actually > did all that. Whatever value you take, as Andreas suggested you then > would have to relate it to the true pixel dwell time, i.e. disregarding > dead time of the scanner. > > To get the exact value at the focal point in the sample also would > require to take the losses due to reflection at the coverslip into > account. In essence, I am definitely with Claire when she says: > > It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. > > The Leica SP8 systems do allow to park the beam, as Craig suspected. > Since I always forget how to do that I put the procedure on our web > site, where I can easily find it :-) > http://www.bioimaging.bmc.med.uni-muenchen.de/manuals-protocols/maintenance_ > protocolls/laserpower/index.html > > > Cheers > > Steffen > > > Am 19.07.2017 um 00:24 schrieb Craig Brideau: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > I've noted the effect Andreas mentions quite often. I usually set the > pixel > dwell time to the maximum such that the laser will spend the longest time > possible scanning out a single line, but even then the flyback can disturb > > the reading. The best way is to park the mirrors in the center position, > although not all systems allow you to do that. Nikon's old C1 platform > allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not > > sure about other vendors, but I'm sure others can chime in with their > experiences. > > Craig > > On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < > [hidden email]> wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > > ***** > > Hi Claire, > Confocals usually blank (switch off) the beam on the return and the power > > meter averages between the on and off phases. Very slow scans are more > accurate an I usually use high zoom. Parking the beam is the better > option. > > Best wishes > > Andreas > > -----Original Message----- > From: "Claire Brown" <[hidden email]> > Sent: 18/07/2017 18:21 > To: "[hidden email]" <[hidden email]> > > Subject: Re: Assessing phototoxicity in live fluorescence imaging > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > > ***** > > Thank you for this great article and pointing to many great resources. > I wanted to bring up one issue we have had when trying to work on > different microscope and compare light density/exposure. > > For the CLSM microscopes when we use a power meter at the focal plan the > power we measure depends a lot on the scan settings. > If we park the beam as a point we get one power. If we go to a 100x100 > pixel array at zoom 1 with a 10x lens the power is different. if we > change > the scan speed the power is different again. I suspect this is related to > > how the power meter integrates the light over time and also how sensitive > > it is spatially across the sensor. We have decide to just quote our power > > as the power we measure at the power meter with set conditions and we > detail those conditions in our materials and methods section of the > paper. > We try to use a 10x/0.3 planfluar lens with no phase optics if we can. > > We have stayed away from trying to calculate the power at the sample > because a lot of assumptions have to be made. The assumptions may be > different for wide-field versus CLSM versus light sheet versus spinning > disk and so on. > > We ran into these issues when just trying to repeat measurements on two > different confocals from two different manufacturers. It can really get > quite complex. > > Does anyone have thoughts on this issue? Any cleaver solutions? It is my > thought that comparing relative powers on the same instrument is okay but > > comparing between systems will be very complex. > > Ideally, it would be good for the manufacturers to have some kind of > laser > power measurement in the instrument and software that is always > monitored. > Even if this is just a relative value to the actual power at the sample > it > would really improve quantitative microscopy and also help in maintenance > > and trouble shooting equipment. I'm not sure about others but this kind > of > a feature would really be a strong selling point for me and the core > facilities I manage. In many cases these options are already built into > the > hardware for the service engineers but are not accessible to the end > user. > > > Sincerely, > > Claire > > -- > ------------------------------------------------------------ > Steffen Dietzel, PD Dr. rer. nat > Ludwig-Maximilians-Universität München > Biomedical Center (BMC) > Head of the Core Facility Bioimaging > > Großhaderner Straße 9 > D-82152 Planegg-Martinsried > Germany > > http://www.bioimaging.bmc.med.uni-muenchen.de > " > -- George McNamara, PhD Baltimore, MD 21231 [hidden email] https://www.linkedin.com/in/georgemcnamara https://works.bepress.com/gmcnamara/75 (may need to use Microsoft Edge or Firefox, rather than Google Chrome) http://www.ncbi.nlm.nih.gov/myncbi/browse/collection/44962650 http://confocal.jhu.edu (as of May 22, 2017) |
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phil laissue-2 |
Re: Assessing phototoxicity in live fluorescence imaging
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*****
To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Dear imagers, Claire has raised an important issue, and it's great to see the discussion and solutions - and so many people interested in reporting power measurements. Thanks to everyone who chipped in with great advice. There almost seem to be as many ways to do this as there are microscopists, so this is a tricky area. We have used references in our review we thought are reasonably practical: - Waters, J.C. & Wittmann, T. (eds.) Quantitative Imaging in Cell Biology. (Academic Press, 2014). - Cranfill, P.J. et al. Nat. Methods 13, 557–562 (2016). As discussed in this thread, conventional power sensors, where the flat entry window is placed against the incoming light, are useful for measuring the power of low NA objectives. They cannot be used to accurately measure high-NA oil and water immersion lenses, which produce a highly focussed cone of light (Dobrucki, 2013 - see reference below). The Thorlabs S170C slide power sensor was developed with this problem in mind, with an index-matching layer between the protective glass window and the photodiode to prevent reflection, and can be used for high NA oil and water objectives. - Fluorescence microscopy. JW Dobrucki. In: Fluorescence Microscopy: From Principles to Biological Applications. First Edition. Edited by Ulrich Kubitscheck. Wiley-VCH Verlag GmbH & Co. KGaA, 2013. A practical approach using an iris, as mentioned by Zdenek, is described here: Grünwald D, Shenoy SM, Burke S, Singer RH. Calibrating excitation light fluxes for quantitative light microscopy in cell biology. Nat Protoc. 2008;3(11):1809-14. doi: 10.1038/nprot.2008.180. PubMed PMID: 18974739; Note that there were similar threads in this forum a few years ago: instrument to measure laser intensity on slide (05/07/2014) Reporting laser power in publication (18/08/2015) There is also a practical note by Vojnovic, Newman and Barber from 2007 (updated in 2011): http://users.ox.ac.uk/~atdgroup/technicalnotes/Optical%20pow er%20meters%20for%20fluorescence%20microscopy.pdf @ Richard Cole: I don't know the publication you mention, but it would be great if you could post the reference here. Thanks! Because of these differences and the technical aspects that need to be considered, it is difficult for a routine lab to do this, and e.g. the Thorlabs power sensor comes with a noticeable price tag. For these reasons, it would be really *most *helpful if technology developers and commercial microscopy manufacturers would provide data on the amounts of light entering the sample at any given settings of the microscope, or to incorporate tools to easily obtain such measurements, such that non-specialists can do it without too much trouble. It's a shame that even light transmission data for an objective should often be so hard to obtain. So in many cases, a power measurement is clearly more of an estimate. It might be useful for us as a community to decide on one standardised approach. Until then, careful reporting on how it was done (while avoiding the most prominent errors as described in this thread) will be the best way forward. With the best wishes, Philippe _________________________________________ Philippe Laissue, PhD Royal Society Industry Fellow and MBL Whitman Center Scientist University of Essex, Colchester CO4 3SQ, UK (0044) 01206 872246 / (0044) 07842 676 456 [hidden email] website <https://laissue.github.io/> On 19 July 2017 at 22:48, George McNamara <[hidden email]> wrote: > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > My 2 paragraphs: > > 1. Confocal microscopes: measure the signal from a coverglass, using pinhole sizes. Zeiss has an RT80/20 (which I hope means 20% reflection, 80% transmission), Olympus FV3000 has 10/90 (reflection/transmission). > > 2. Widefield microscopes, excitation side, http://www.epitechnology.com manufactures (3D prints) filter cubes with a mirror in place of the dichroic, and facing the 'other way', to enable imaging the lamp (or LLG or fiber) onto the detector -- which you (or someone else) paid (a lot of) money for, and should be quantitative. Examples of what you'll see are shown on http://www.epitechnology.com/epitechnology-1/ > > enjoy, > > George > > > On 7/19/2017 4:08 PM, JAMES B PAWLEY wrote: >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Even the simplest things aren’t. >> >> Steffen is quite right about the power meter assuming (almost) normal immersion oil between the high-NA objective and the sensor surface, however, in many power meters, the silicon detector is separated from the protective cover glass by an air gap, so this doesn’t work (although you might be able to get around this by using a home-made >> power meter consisting of a small “oilable” silicon solar cell from the electronics store connected to a current meter. But you would have to make sure that no stray room light hits this usually rather large cell and you would also have to calibrate it against a “real” power meter while remembering to correct for their different areas…) >> >> The official way to do this measurement is to set up the microscope optics for Kohler Illumination using an oiled condenser with an NA at least as high as that of the objective. Assuming that there is no specimen in the way, the light emerging from the condenser should be parallel to the axis. Of course, you will still have reflection and absorption losses in the condenser and if you are doing this in wide field, the setting of the field diaphragm will have a massive effect (the transmitted power will be proportional to the area of the image plane illuminated by the field diaphragm). You will also have to be sure that the ray bundle from the condenser isn’t larger than your sensor. >> >> On the other hand, as few scopes are set up with the required high-NA oiled condenser, it is common to fall back on the “10X low-NA” option. >> >> Although this can provide fairly consistent day-to-day readings, you should NOT assume that you can just apply this reading to what would have emerged from a high-NA objective of higher magnification. This is because the illumination system is set up to provide a beam of a certain size in the BFP of the objective (in the space between the back of an infinity-corrected objective and the tube lens). This beam is usually roughly Gaussian in shape and its size is a compromise between the need to “fill the NA” of the “best lens” with fair uniformity and the desire not to waste too much light hitting the metal mounting of the optics (and then scattering all over the place causing "stray light”). >> >> The problem is that “filling the NA” of, say a 40x 1.3 objective requires a beam diameter that is 2.5x larger (and 6.25 larger in area) than would be required for a 100x 1.3 objective. This is why early confocals often got better resolution with higher mag objectives:The ray bundle just didn’t fill the BFP of the lower-mag objectives. Conversely, they often got better “penetration” when using oil lenses into aqueous specimens when using the low-mag objectives: spherical aberration increases rapidly with NA and by being underfilled, the lower mag objectives were actually operating at a lower NA (at least on the illumination side). >> >> So, although you can use the "10x low-NA" trick for monitoring day-to-day performance, you will probably need to use the Kohler set-up at least once to determine how the illumination optics in your scope fills the BFP. (It won’t work just to assume that the 40x 1.3 should pass 6.25x more light than the 100x 1.3 because, even if the beam is large at the BFP, it is still a Gaussian and brighter in the centre.) Basically, you need to determine the real conversion factors between your low-NA 10x and all your other objectives. >> >> Even using a “dry" NA 0.9 condenser is better than trying to measure the convergent/divergent spot from a high NA objective. Try it with something like a 1.3 NA 40x oil (or a 0.5NA 10x dry) and, after you have set up Kohler using the normal transmitted light optics, open the condenser aperture to 0.9, turn off the transmitted source and turn on the epi-illumination (laser or WF) and hold a piece of white paper in the beam coming out of the condenser. You should see a bright blob and this blob may not even extend as far as NA 0.9 (which you can determine by moving the condenser aperture control to see if the edges of the blob are cut off by a sharp, black edge.) Knowing the size of this blob can help you at least estimate how much of the other objectives will be "filled." >> >> I hope that this isn’t all too complicated and therefore disappointing because I think that, particularly when working with living cells, nothing is more important than knowing how much light hit the specimen while you collected your images. >> >> So please persist! >> >> Jm Pawley >> >> James and Christine Pawley, 5446 Burley Place, Box 2348, Sechelt BC, Canada, V0N3A0 [hidden email]<mailto:[hidden email]>, Phone 1-604-885-0840 <(604)%20885-0840>, cell 1-604-989-6146 <(604)%20989-6146> >> >> James and Christine Pawley, 5446 Burley Place, Box 2348, Sechelt BC, Canada, V0N3A0 [hidden email]<mailto:[hidden email]>, Phone 1-604-885-0840 <(604)%20885-0840>, cell 1-604-989-6146 <(604)%20989-6146> >> >> >> >> On Jul 19, 2017, at 6:55 AM, [hidden email]<mailto:[hidden email]> wrote: >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Hi Steffen, >> you can improve the accuracy of the method "a)" (that is measuring the laser >> power before reaching the objective) greatly by mounting an iris stop in >> place of the lens, adjusting the aperture to equal the diameter of the back >> focal plane (BFP) aperture of the objective lens, and measuring the power of >> the light that gets through this aperture. >> >> Most confocal microscopes 'overfill' the BFP greatly (which is good for >> resolution) and you can get an order of magnitude difference when the laser >> beam is > 15 mm 'diameter' (it's gaussian profile) and the BFP diameter is >> just 4 mm (e.g. some high-magnification lenses). >> >> You can determine the BFP diameter by looking at the back of the lens, or by >> dong some simple math (I guess diameter = 2 * NA * focal_length; focal_ >> length = tube_lens_focal_lenght / magnification). >> >> This way, your a) and b) results should be much closer to each other and to >> the real value in between... >> >> Best, zdenek >> >> -- >> Zdenek Svindrych, Ph.D. >> W.M. Keck Center for Cellular Imaging (PLSB 003) >> Department of Biology,University of Virginia >> 409 McCormick Rd, Charlottesville, VA-22904 >> http://www.kcci.virginia.edu/ >> tel: 434-982-4869 <(434)%20982-4869> >> >> ---------- Původní e-mail ---------- >> Od: Steffen Dietzel <[hidden email]> >> Komu: [hidden email] >> Datum: 19. 7. 2017 7:03:20 >> Předmět: Re: Assessing phototoxicity in live fluorescence imaging >> "***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> Unfortunately not a solution, but a further complication: As far as I >> know, power meters are made to detect light that hits the sensor >> orthogonally. So with a high NA lens, a lot of the incident light won't >> be even detected. >> >> I guess what one could do is to measure >> >> a) the power without objective with a parked beam, focusing on a spot in >> the center of the field of view. This would give the upper estimate but >> not the true intensity since some of it is absorbed by the objective >> itself. Transmittance is never 100%. >> >> b) doing the same with the objective that is to be used. This will give >> the lower estimate. Too low, since part of the light won't be measured >> due to the incident angle. >> >> The truth then is somewhere between the two values. With modern high NA >> objectives which should have a high transmission my gut feeling is that >> the truth would be closer to (a) than to (b). >> >> You could take value (a) and correct it the transmission of the >> objective at the given wavelength published by the manufacturer, if that >> is available. But I don't think I have ever seen a paper that actually >> did all that. Whatever value you take, as Andreas suggested you then >> would have to relate it to the true pixel dwell time, i.e. disregarding >> dead time of the scanner. >> >> To get the exact value at the focal point in the sample also would >> require to take the losses due to reflection at the coverslip into >> account. In essence, I am definitely with Claire when she says: >> >> It is my >> thought that comparing relative powers on the same instrument is okay but >> comparing between systems will be very complex. >> >> The Leica SP8 systems do allow to park the beam, as Craig suspected. >> Since I always forget how to do that I put the procedure on our web >> site, where I can easily find it :-) >> http://www.bioimaging.bmc.med.uni-muenchen.de/manuals-protoc >> protocolls/laserpower/index.html >> >> >> Cheers >> >> Steffen >> >> >> Am 19.07.2017 um 00:24 schrieb Craig Brideau: >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> ***** >> >> I've noted the effect Andreas mentions quite often. I usually set the >> pixel >> dwell time to the maximum such that the laser will spend the longest time >> possible scanning out a single line, but even then the flyback can >> >> the reading. The best way is to park the mirrors in the center position, >> although not all systems allow you to do that. Nikon's old C1 platform >> allows for it, and ThorLabs' ThorScanLS has a park button as well. I'm not >> >> sure about other vendors, but I'm sure others can chime in with their >> experiences. >> >> Craig >> >> On Tue, Jul 18, 2017 at 11:44 AM, Andreas Bruckbauer < >> [hidden email]> wrote: >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> >> ***** >> >> Hi Claire, >> Confocals usually blank (switch off) the beam on the return and the power >> >> meter averages between the on and off phases. Very slow scans are more >> accurate an I usually use high zoom. Parking the beam is the better >> option. >> >> Best wishes >> >> Andreas >> >> -----Original Message----- >> From: "Claire Brown" <[hidden email]> >> Sent: 18/07/2017 18:21 >> To: "[hidden email]" <[hidden email]> >> >> Subject: Re: Assessing phototoxicity in live fluorescence imaging >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> Post images on http://www.imgur.com and include the link in your posting. >> >> ***** >> >> Thank you for this great article and pointing to many great resources. >> I wanted to bring up one issue we have had when trying to work on >> different microscope and compare light density/exposure. >> >> For the CLSM microscopes when we use a power meter at the focal plan the >> power we measure depends a lot on the scan settings. >> If we park the beam as a point we get one power. If we go to a 100x100 >> pixel array at zoom 1 with a 10x lens the power is different. if we >> change >> the scan speed the power is different again. I suspect this is related to >> >> how the power meter integrates the light over time and also how sensitive >> >> it is spatially across the sensor. We have decide to just quote our power >> >> as the power we measure at the power meter with set conditions and we >> detail those conditions in our materials and methods section of the >> paper. >> We try to use a 10x/0.3 planfluar lens with no phase optics if we can. >> >> We have stayed away from trying to calculate the power at the sample >> because a lot of assumptions have to be made. The assumptions may be >> different for wide-field versus CLSM versus light sheet versus spinning >> disk and so on. >> >> We ran into these issues when just trying to repeat measurements on two >> different confocals from two different manufacturers. It can really get >> quite complex. >> >> Does anyone have thoughts on this issue? Any cleaver solutions? It is my >> thought that comparing relative powers on the same instrument is okay but >> >> comparing between systems will be very complex. >> >> Ideally, it would be good for the manufacturers to have some kind of >> laser >> power measurement in the instrument and software that is always >> monitored. >> Even if this is just a relative value to the actual power at the sample >> it >> would really improve quantitative microscopy and also help in maintenance >> >> and trouble shooting equipment. I'm not sure about others but this kind >> of >> a feature would really be a strong selling point for me and the core >> facilities I manage. In many cases these options are already built into >> the >> hardware for the service engineers but are not accessible to the end >> user. >> >> >> Sincerely, >> >> Claire >> >> -- >> ------------------------------------------------------------ >> Steffen Dietzel, PD Dr. rer. nat >> Ludwig-Maximilians-Universität München >> Biomedical Center (BMC) >> Head of the Core Facility Bioimaging >> >> Großhaderner Straße 9 >> D-82152 Planegg-Martinsried >> Germany >> >> http://www.bioimaging.bmc.med.uni-muenchen.de >> " >> > > -- > > > George McNamara, PhD > Baltimore, MD 21231 > [hidden email] > https://www.linkedin.com/in/georgemcnamara > https://works.bepress.com/gmcnamara/75 (may need to use Microsoft Edge > http://www.ncbi.nlm.nih.gov/myncbi/browse/collection/44962650 > http://confocal.jhu.edu (as of May 22, 2017) |
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0000001ed7f52e4a-dmarc-request |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by Claire Brown
*****
To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Dear all, I wanted to pick this up again and discuss a different aspect. Even when we could measure the laser power accurately, how would one compare power density between widefield and confocal microscopy? The widefield case seems pretty straightforward, one would need to know the area illuminated by the light source. Usually I bleach a part of the sample and do a larger tile scan and can hopefully see a sharp edge to measure the area. In the confocal case one has the Gaussian beam profile, presumably easy to measure with a small bead and an open pinhole. One could calculate an average over the beam profile. But how can one deal with the beam scanning and account for different situations like undersampling or oversampling? The easiest would be power density x pixel dwell time x number of pixels which should be fine when the pixels are on beam diameter apart. But when we then zoom in and undersample, the same energy will be concentrated in a smaller area, presumably leading to higher phototoxicity? Should one multiply by an overfill factor? Would the photoxicity in this case not be lower than when doing the same with a higher NA objective which would have a beam size matching the (now zoomed in) pixel spacing? When undersampling, like using a low mag objective with 512 x 512 pixels one can actually bleach nice lines into the sample. In this case the photoxicity in the line will be high, but the area between will not be illuminated. How to account for this? best wishes Andreas -----Original Message----- From: Claire Brown <[hidden email]> To: CONFOCALMICROSCOPY <[hidden email]> Sent: Tue, 18 Jul 2017 18:21 Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire |
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Craig Brideau |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Well, the laser spot size will be constant for a given objective, so the PSF will give you a good idea of the distribution of the laser energy over the three-dimensional volume. If your sample is smaller than the PSF then the exposure will depend on how the PSF crosses the sample as the laser scans. Exposure time will actually be less than the pixel dwell. For a larger object, a good approximation would be the summation of the pixel dwell time of all pixels that comprise the object, so for instance you can determine that a cell has received 'X' microseconds of laser based on the total number of pixels and the dwell time. The instantaneous energy deposition is the energy density of the PSF, but the average power deposited will be the length of time the cell actually has the laser on it per scan. One thing that bothers me though is the gap between x-lines as you reduce resolution. The pixels will be larger but the same laser PSF is used to construct the larger pixels, so you are using the same energy flow over a larger area. In accommodating the larger pixel size though, the system must slew the Y galvo through a larger step, so there should be areas of the sample the laser skips if your pixel size is much larger than the laser PSF. I'm still mulling that one over if anyone wishes to share their thoughts. Craig On Thu, Jul 20, 2017 at 3:04 PM, < [hidden email]> wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > > Dear all, > > I wanted to pick this up again and discuss a different aspect. Even when > we could measure the laser power accurately, how would one compare power > density between widefield and confocal microscopy? The widefield case seems > pretty straightforward, one would need to know the area illuminated by the > light source. Usually I bleach a part of the sample and do a larger tile > scan and can hopefully see a sharp edge to measure the area. In the > confocal case one has the Gaussian beam profile, presumably easy to measure > with a small bead and an open pinhole. One could calculate an average over > the beam profile. But how can one deal with the beam scanning and account > for different situations like undersampling or oversampling? The easiest > would be power density x pixel dwell time x number of pixels which should > be fine when the pixels are on beam diameter apart. But when we then zoom > in and undersample, the same energy will be concentrated in a smaller area, > presumably leading to higher phototoxicity? Should one multiply by an > overfill factor? Would the photoxicity in this case not be lower than when > doing the same with a higher NA objective which would have a beam size > matching the (now zoomed in) pixel spacing? When undersampling, like using > a low mag objective with 512 x 512 pixels one can actually bleach nice > lines into the sample. In this case the photoxicity in the line will be > high, but the area between will not be illuminated. How to account for this? > > best wishes > > Andreas > > > > -----Original Message----- > From: Claire Brown <[hidden email]> > To: CONFOCALMICROSCOPY <[hidden email]> > Sent: Tue, 18 Jul 2017 18:21 > Subject: Re: Assessing phototoxicity in live fluorescence imaging > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Thank you for this great article and pointing to many great resources. > I wanted to bring up one issue we have had when trying to work on > different microscope and compare light density/exposure. > > For the CLSM microscopes when we use a power meter at the focal plan the > power we measure depends a lot on the scan settings. > If we park the beam as a point we get one power. If we go to a 100x100 > pixel array at zoom 1 with a 10x lens the power is different. if we change > the scan speed the power is different again. I suspect this is related to > how the power meter integrates the light over time and also how sensitive > it is spatially across the sensor. We have decide to just quote our power > as the power we measure at the power meter with set conditions and we > detail those conditions in our materials and methods section of the paper. > We try to use a 10x/0.3 planfluar lens with no phase optics if we can. > > We have stayed away from trying to calculate the power at the sample > because a lot of assumptions have to be made. The assumptions may be > different for wide-field versus CLSM versus light sheet versus spinning > disk and so on. > > We ran into these issues when just trying to repeat measurements on two > different confocals from two different manufacturers. It can really get > quite complex. > > Does anyone have thoughts on this issue? Any cleaver solutions? It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. > > Ideally, it would be good for the manufacturers to have some kind of laser > power measurement in the instrument and software that is always monitored. > Even if this is just a relative value to the actual power at the sample it > would really improve quantitative microscopy and also help in maintenance > and trouble shooting equipment. I'm not sure about others but this kind of > a feature would really be a strong selling point for me and the core > facilities I manage. In many cases these options are already built into the > hardware for the service engineers but are not accessible to the end user. > > > Sincerely, > > Claire > |
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0000001ed7f52e4a-dmarc-request |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** >so there should be areas of the sample the laser skips if your pixel size is much larger than the laser PSF. I think lavision designed their cloud scanner for the multiphoton exactly for this problem, basically extending the beam size by multiplexing the beam. Lenses with an aperture to limit the NA might be useful too, but you would loose light in the detection, underfilling? Best wishes Andreas Best wishes Andreas -----Original Message----- From: "Craig Brideau" <[hidden email]> Sent: 20/07/2017 22:36 To: "[hidden email]" <[hidden email]> Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Well, the laser spot size will be constant for a given objective, so the PSF will give you a good idea of the distribution of the laser energy over the three-dimensional volume. If your sample is smaller than the PSF then the exposure will depend on how the PSF crosses the sample as the laser scans. Exposure time will actually be less than the pixel dwell. For a larger object, a good approximation would be the summation of the pixel dwell time of all pixels that comprise the object, so for instance you can determine that a cell has received 'X' microseconds of laser based on the total number of pixels and the dwell time. The instantaneous energy deposition is the energy density of the PSF, but the average power deposited will be the length of time the cell actually has the laser on it per scan. One thing that bothers me though is the gap between x-lines as you reduce resolution. The pixels will be larger but the same laser PSF is used to construct the larger pixels, so you are using the same energy flow over a larger area. In accommodating the larger pixel size though, the system must slew the Y galvo through a larger step, so there should be areas of the sample the laser skips if your pixel size is much larger than the laser PSF. I'm still mulling that one over if anyone wishes to share their thoughts. Craig On Thu, Jul 20, 2017 at 3:04 PM, < [hidden email]> wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > > Dear all, > > I wanted to pick this up again and discuss a different aspect. Even when > we could measure the laser power accurately, how would one compare power > density between widefield and confocal microscopy? The widefield case seems > pretty straightforward, one would need to know the area illuminated by the > light source. Usually I bleach a part of the sample and do a larger tile > scan and can hopefully see a sharp edge to measure the area. In the > confocal case one has the Gaussian beam profile, presumably easy to measure > with a small bead and an open pinhole. One could calculate an average over > the beam profile. But how can one deal with the beam scanning and account > for different situations like undersampling or oversampling? The easiest > would be power density x pixel dwell time x number of pixels which should > be fine when the pixels are on beam diameter apart. But when we then zoom > in and undersample, the same energy will be concentrated in a smaller area, > presumably leading to higher phototoxicity? Should one multiply by an > overfill factor? Would the photoxicity in this case not be lower than when > doing the same with a higher NA objective which would have a beam size > matching the (now zoomed in) pixel spacing? When undersampling, like using > a low mag objective with 512 x 512 pixels one can actually bleach nice > lines into the sample. In this case the photoxicity in the line will be > high, but the area between will not be illuminated. How to account for this? > > best wishes > > Andreas > > > > -----Original Message----- > From: Claire Brown <[hidden email]> > To: CONFOCALMICROSCOPY <[hidden email]> > Sent: Tue, 18 Jul 2017 18:21 > Subject: Re: Assessing phototoxicity in live fluorescence imaging > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Thank you for this great article and pointing to many great resources. > I wanted to bring up one issue we have had when trying to work on > different microscope and compare light density/exposure. > > For the CLSM microscopes when we use a power meter at the focal plan the > power we measure depends a lot on the scan settings. > If we park the beam as a point we get one power. If we go to a 100x100 > pixel array at zoom 1 with a 10x lens the power is different. if we change > the scan speed the power is different again. I suspect this is related to > how the power meter integrates the light over time and also how sensitive > it is spatially across the sensor. We have decide to just quote our power > as the power we measure at the power meter with set conditions and we > detail those conditions in our materials and methods section of the paper. > We try to use a 10x/0.3 planfluar lens with no phase optics if we can. > > We have stayed away from trying to calculate the power at the sample > because a lot of assumptions have to be made. The assumptions may be > different for wide-field versus CLSM versus light sheet versus spinning > disk and so on. > > We ran into these issues when just trying to repeat measurements on two > different confocals from two different manufacturers. It can really get > quite complex. > > Does anyone have thoughts on this issue? Any cleaver solutions? It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. > > Ideally, it would be good for the manufacturers to have some kind of laser > power measurement in the instrument and software that is always monitored. > Even if this is just a relative value to the actual power at the sample it > would really improve quantitative microscopy and also help in maintenance > and trouble shooting equipment. I'm not sure about others but this kind of > a feature would really be a strong selling point for me and the core > facilities I manage. In many cases these options are already built into the > hardware for the service engineers but are not accessible to the end user. > > > Sincerely, > > Claire > |
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Zdenek Svindrych-2 |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Sure, NA aperture is not very helpful here, as in fluorescence "every photon counts". Some microscope vendors (Olympus?) allow for underfilling (limiting the excitation beam diameter), but it also reduces the z-resolution (apart from XY resolution, of course). But remember that when taking z-stacks, the localized bleaching is not an issue, for you are bleaching the whole thickness of your sample all the time! zdenek ---------- Původní e-mail ---------- Od: Andreas Bruckbauer <[hidden email]> Komu: [hidden email] Datum: 20. 7. 2017 18:02:18 Předmět: Re: Assessing phototoxicity in live fluorescence imaging "***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** >so there should be areas of the sample the laser skips if your pixel size is much larger than the laser PSF. I think lavision designed their cloud scanner for the multiphoton exactly for this problem, basically extending the beam size by multiplexing the beam. Lenses with an aperture to limit the NA might be useful too, but you would loose light in the detection, underfilling? Best wishes Andreas Best wishes Andreas -----Original Message----- From: "Craig Brideau" <[hidden email]> Sent: 20/07/2017 22:36 To: "[hidden email]" <[hidden email]> Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Well, the laser spot size will be constant for a given objective, so the PSF will give you a good idea of the distribution of the laser energy over the three-dimensional volume. If your sample is smaller than the PSF then the exposure will depend on how the PSF crosses the sample as the laser scans. Exposure time will actually be less than the pixel dwell. For a larger object, a good approximation would be the summation of the pixel dwell time of all pixels that comprise the object, so for instance you can determine that a cell has received 'X' microseconds of laser based on the total number of pixels and the dwell time. The instantaneous energy deposition is the energy density of the PSF, but the average power deposited will be the length of time the cell actually has the laser on it per scan. One thing that bothers me though is the gap between x-lines as you reduce resolution. The pixels will be larger but the same laser PSF is used to construct the larger pixels, so you are using the same energy flow over a larger area. In accommodating the larger pixel size though, the system must slew the Y galvo through a larger step, so there should be areas of the sample the laser skips if your pixel size is much larger than the laser PSF. I'm still mulling that one over if anyone wishes to share their thoughts. Craig On Thu, Jul 20, 2017 at 3:04 PM, < [hidden email]> wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > > Dear all, > > I wanted to pick this up again and discuss a different aspect. Even when > we could measure the laser power accurately, how would one compare power > density between widefield and confocal microscopy? The widefield case > pretty straightforward, one would need to know the area illuminated by the > light source. Usually I bleach a part of the sample and do a larger tile > scan and can hopefully see a sharp edge to measure the area. In the > confocal case one has the Gaussian beam profile, presumably easy to measure > with a small bead and an open pinhole. One could calculate an average over > the beam profile. But how can one deal with the beam scanning and account > for different situations like undersampling or oversampling? The easiest > would be power density x pixel dwell time x number of pixels which should > be fine when the pixels are on beam diameter apart. But when we then zoom > in and undersample, the same energy will be concentrated in a smaller area, > presumably leading to higher phototoxicity? Should one multiply by an > overfill factor? Would the photoxicity in this case not be lower than when > doing the same with a higher NA objective which would have a beam size > matching the (now zoomed in) pixel spacing? When undersampling, like using > a low mag objective with 512 x 512 pixels one can actually bleach nice > lines into the sample. In this case the photoxicity in the line will be > high, but the area between will not be illuminated. How to account for this? > > best wishes > > Andreas > > > > -----Original Message----- > From: Claire Brown <[hidden email]> > To: CONFOCALMICROSCOPY <[hidden email]> > Sent: Tue, 18 Jul 2017 18:21 > Subject: Re: Assessing phototoxicity in live fluorescence imaging > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > Post images on http://www.imgur.com and include the link in your posting. > ***** > > Thank you for this great article and pointing to many great resources. > I wanted to bring up one issue we have had when trying to work on > different microscope and compare light density/exposure. > > For the CLSM microscopes when we use a power meter at the focal plan the > power we measure depends a lot on the scan settings. > If we park the beam as a point we get one power. If we go to a 100x100 > pixel array at zoom 1 with a 10x lens the power is different. if we change > the scan speed the power is different again. I suspect this is related to > how the power meter integrates the light over time and also how sensitive > it is spatially across the sensor. We have decide to just quote our power > as the power we measure at the power meter with set conditions and we > detail those conditions in our materials and methods section of the paper. > We try to use a 10x/0.3 planfluar lens with no phase optics if we can. > > We have stayed away from trying to calculate the power at the sample > because a lot of assumptions have to be made. The assumptions may be > different for wide-field versus CLSM versus light sheet versus spinning > disk and so on. > > We ran into these issues when just trying to repeat measurements on two > different confocals from two different manufacturers. It can really get > quite complex. > > Does anyone have thoughts on this issue? Any cleaver solutions? It is my > thought that comparing relative powers on the same instrument is okay but > comparing between systems will be very complex. > > Ideally, it would be good for the manufacturers to have some kind of laser > power measurement in the instrument and software that is always monitored. > Even if this is just a relative value to the actual power at the sample it > would really improve quantitative microscopy and also help in maintenance > and trouble shooting equipment. I'm not sure about others but this kind of > a feature would really be a strong selling point for me and the core > facilities I manage. In many cases these options are already built into the > hardware for the service engineers but are not accessible to the end user. > > > Sincerely, > > Claire > " |
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Zdenek Svindrych-2 |
Re: Assessing phototoxicity in live fluorescence imaging
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In reply to this post by 0000001ed7f52e4a-dmarc-request
*****
To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Andreas, to a firsts approximation, it's not so complicated. Assumptions: bleaching is linear with illumination intensity, "reasonable" sampling (confocal - scanned region is bigger than Airy disk, no big gaps between lines (or z-stack acquisition); widefield - spatially constant illumination intensity over known field of view). Units: J/um^2 (Joule per square micrometer) seems appropriate. Widefield: exitation_power [Watts] * exposure_time[seconds] / illuminated_ area [um^2] Confocal: exitation_power [Watts] * scanning_time[seconds] * duty_factor / illuminated_area [um^2] The power is after the objective... the 'factor' is the duty cycle of the scanning process (assuming the 'power' is the peak power) - then power* factor = average excitation power. In this approximation the PSF size, pixel size and counts, dwell time, etc. are irrelevant (other than defining the scan time and scanned area). Beware: the "linearity of bleaching" assumption is easy to break! zdenek ---------- Původní e-mail ---------- Od: [hidden email] Komu: [hidden email] Datum: 20. 7. 2017 17:18:47 Předmět: Re: Assessing phototoxicity in live fluorescence imaging "***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Dear all, I wanted to pick this up again and discuss a different aspect. Even when we could measure the laser power accurately, how would one compare power density between widefield and confocal microscopy? The widefield case seems pretty straightforward, one would need to know the area illuminated by the light source. Usually I bleach a part of the sample and do a larger tile scan and can hopefully see a sharp edge to measure the area. In the confocal case one has the Gaussian beam profile, presumably easy to measure with a small bead and an open pinhole. One could calculate an average over the beam profile. But how can one deal with the beam scanning and account for different situations like undersampling or oversampling? The easiest would be power density x pixel dwell time x number of pixels which should be fine when the pixels are on beam diameter apart. But when we then zoom in and undersample, the same energy will be concentrated in a smaller area, presumably leading to higher phototoxicity? Should one multiply by an overfill factor? Would the photoxicity in this case not be lower than when doing the same with a higher NA objective which would have a beam size matching the (now zoomed in) pixel spacing? When undersampling, like using a low mag objective with 512 x 512 pixels one can actually bleach nice lines into the sample. In this case the photoxicity in the line will be high, but the area between will not be illuminated. How to account for this? best wishes Andreas -----Original Message----- From: Claire Brown <[hidden email]> To: CONFOCALMICROSCOPY <[hidden email]> Sent: Tue, 18 Jul 2017 18:21 Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire " |
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0000001ed7f52e4a-dmarc-request |
Re: Assessing phototoxicity in live fluorescence imaging
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Zdenek, Craig Thanks for your replies, but Zdenek's linear case doesn't account for the instantaneous power deposition Craig mentions. The high intensity of the scanned laser completely disappeared from the equation. I think in the context of phototoxicity one cannot assume this linearity. So one should monitor both, average exposure and instantaneous. The time domain will also be important, slow scanning vs fast, pulsed lasers and cw. Experiments will hopefully show. Thanks Philippe for starting this discussion. Best wishes Andreas -----Original Message----- From: "[hidden email]" <[hidden email]> Sent: 21/07/2017 00:26 To: "[hidden email]" <[hidden email]> Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Hi Andreas, to a firsts approximation, it's not so complicated. Assumptions: bleaching is linear with illumination intensity, "reasonable" sampling (confocal - scanned region is bigger than Airy disk, no big gaps between lines (or z-stack acquisition); widefield - spatially constant illumination intensity over known field of view). Units: J/um^2 (Joule per square micrometer) seems appropriate. Widefield: exitation_power [Watts] * exposure_time[seconds] / illuminated_ area [um^2] Confocal: exitation_power [Watts] * scanning_time[seconds] * duty_factor / illuminated_area [um^2] The power is after the objective... the 'factor' is the duty cycle of the scanning process (assuming the 'power' is the peak power) - then power* factor = average excitation power. In this approximation the PSF size, pixel size and counts, dwell time, etc. are irrelevant (other than defining the scan time and scanned area). Beware: the "linearity of bleaching" assumption is easy to break! zdenek ---------- Původní e-mail ---------- Od: [hidden email] Komu: [hidden email] Datum: 20. 7. 2017 17:18:47 Předmět: Re: Assessing phototoxicity in live fluorescence imaging "***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Dear all, I wanted to pick this up again and discuss a different aspect. Even when we could measure the laser power accurately, how would one compare power density between widefield and confocal microscopy? The widefield case seems pretty straightforward, one would need to know the area illuminated by the light source. Usually I bleach a part of the sample and do a larger tile scan and can hopefully see a sharp edge to measure the area. In the confocal case one has the Gaussian beam profile, presumably easy to measure with a small bead and an open pinhole. One could calculate an average over the beam profile. But how can one deal with the beam scanning and account for different situations like undersampling or oversampling? The easiest would be power density x pixel dwell time x number of pixels which should be fine when the pixels are on beam diameter apart. But when we then zoom in and undersample, the same energy will be concentrated in a smaller area, presumably leading to higher phototoxicity? Should one multiply by an overfill factor? Would the photoxicity in this case not be lower than when doing the same with a higher NA objective which would have a beam size matching the (now zoomed in) pixel spacing? When undersampling, like using a low mag objective with 512 x 512 pixels one can actually bleach nice lines into the sample. In this case the photoxicity in the line will be high, but the area between will not be illuminated. How to account for this? best wishes Andreas -----Original Message----- From: Claire Brown <[hidden email]> To: CONFOCALMICROSCOPY <[hidden email]> Sent: Tue, 18 Jul 2017 18:21 Subject: Re: Assessing phototoxicity in live fluorescence imaging ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy Post images on http://www.imgur.com and include the link in your posting. ***** Thank you for this great article and pointing to many great resources. I wanted to bring up one issue we have had when trying to work on different microscope and compare light density/exposure. For the CLSM microscopes when we use a power meter at the focal plan the power we measure depends a lot on the scan settings. If we park the beam as a point we get one power. If we go to a 100x100 pixel array at zoom 1 with a 10x lens the power is different. if we change the scan speed the power is different again. I suspect this is related to how the power meter integrates the light over time and also how sensitive it is spatially across the sensor. We have decide to just quote our power as the power we measure at the power meter with set conditions and we detail those conditions in our materials and methods section of the paper. We try to use a 10x/0.3 planfluar lens with no phase optics if we can. We have stayed away from trying to calculate the power at the sample because a lot of assumptions have to be made. The assumptions may be different for wide-field versus CLSM versus light sheet versus spinning disk and so on. We ran into these issues when just trying to repeat measurements on two different confocals from two different manufacturers. It can really get quite complex. Does anyone have thoughts on this issue? Any cleaver solutions? It is my thought that comparing relative powers on the same instrument is okay but comparing between systems will be very complex. Ideally, it would be good for the manufacturers to have some kind of laser power measurement in the instrument and software that is always monitored. Even if this is just a relative value to the actual power at the sample it would really improve quantitative microscopy and also help in maintenance and trouble shooting equipment. I'm not sure about others but this kind of a feature would really be a strong selling point for me and the core facilities I manage. In many cases these options are already built into the hardware for the service engineers but are not accessible to the end user. Sincerely, Claire " |
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