Objectives for live cell imaging

        O.k., obviously live cell imaging would be best done with either (1)
an upright with a water immersion lens (dipping) or (2) cells
adherent to a cover slip and an oil immersion lens on an inverted
scope.

        So what about live tissue imaging on an inverted scope?  (I.e. whole
or dissected insect neuro-muscular development).  How do you best
deal with spherical aberration due to samples in a watery medium a
distance from the coverslip?  With say a 40 to 60X magnification.  
Scope is a Zeiss 710.

        Building, some sort of a flexible damn system for using a water
immersion lens on an inverted really does not seem practical.

        Thanks for any help.


Richard E. Edelmann, Ph.D.
Electron Microscopy Facility Director
364 Pearson Hall
Miami University, Oxford, OH 45056
Ph: 513.529.5712        Fax: 513.529.4243
E-mail: [hidden email]
http://www.emf.muohio.edu

Actually, I think most people on this listserver would say use a  
water lens for any live-cell application, even deep tissue imaging on  
an inverted microscope since this will reduce the aberrations due to  
refractive index mismatch. Steven Cody and Guy Cox I believe have  
documented on their websites some nice and simple ways to create  
water dams.

John Oreopoulos


On 2-Dec-09, at 10:50 AM, Richard E. Edelmann wrote:

Hi!

Look up the Greiner Lumox dishes.  NOT cheap but quite a while back I read that
their RI is very close to that of water.  It works fine with beads and a 63x
water immersion (no coverslip) but you might want to test them yourself (my
users have yet to buy them).

No direct financial interests.

Good luck!
Sophie
____________________________________________________
Sophie M. K. Brunet, Ph. D.
Research Officer
Optical Spectroscopy, Laser Systems and Applications
[hidden email]
306-966-1719 (office)   306-966-1702 (fax)
____________________________________________________
Saskatchewan Structural Sciences Centre
University of Saskatchewan
Thorvaldson Bldg.
110 Science Place
Saskatoon, Sk   S7N 5C9
____________________________________________________


Quoting "Richard E. Edelmann" <[hidden email]>:

In this case, for inverted microscope, water immersion (non-dipping) lens is better, preferable 40X 1.2 NA for fluorescence, you don't want a too high magnification, since fluorescence light throughput will be lower with higher magnification. Essentially, you need high NA, low magnification, turns out 40X 1.2NA objective is the sweet spot.

Using water immersion (non-dipping) lens for long time-lapse, use 1.33 RI immersion oil (the same RI of water) is better than real water, since it won't evaporate.

I usually use Bioptechs Delta-T dish (Fisher Scientific cat-# 12-071-34), or

Thermo Scientific Nunc Lab-Tek Chamber Cover Glass (cat# 12-565-401) with appropriate stage adapters on inverted scopes. 

Good luck.

Tao




--
http://tongtao.com

We often image live cells on inverted microscopes using water immersion
lenses. It is not a problem, and in fact you should image live cells in
aqueous with a water immersion lens. You can also use a thicker water
from Zeiss Immersol W (and others) that has an RI similar to W. We use
this for long term live cell imaging at 37degrees.
Live cell imaging is best done through a glass coverslip bottom dish
using water immersion lenses on an inverted scope (in my humble
opinion).
Cheers,  

Brian D Armstrong PhD
Light Microscopy Core Manager
Beckman Research Institute
City of Hope
Dept of Neuroscience
1450 E Duarte Rd
Duarte, CA 91010
626-256-4673 x62872
http://www.cityofhope.org/research/support/Light-Microscopy-Digital-Imag
ing/Pages/default.aspx
-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]]
On Behalf Of Richard E. Edelmann
Sent: Wednesday, December 02, 2009 7:51 AM
To: [hidden email]
Subject: Objectives for live cell imaging


        O.k., obviously live cell imaging would be best done with either
(1)
an upright with a water immersion lens (dipping) or (2) cells
adherent to a cover slip and an oil immersion lens on an inverted
scope.

        So what about live tissue imaging on an inverted scope?  (I.e.
whole
or dissected insect neuro-muscular development).  How do you best
deal with spherical aberration due to samples in a watery medium a
distance from the coverslip?  With say a 40 to 60X magnification.  
Scope is a Zeiss 710.

        Building, some sort of a flexible damn system for using a water
immersion lens on an inverted really does not seem practical.

        Thanks for any help.


Richard E. Edelmann, Ph.D.
Electron Microscopy Facility Director
364 Pearson Hall
Miami University, Oxford, OH 45056
Ph: 513.529.5712        Fax: 513.529.4243
E-mail: [hidden email]
http://www.emf.muohio.edu


---------------------------------------------------------------------
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.

---------------------------------------------------------------------

        The perfect optical system will have no refractive mismatch in
the system. This can be accomplished when imaging a fixed biological
specimen if it has been prepared properly and mounted in a medium that
has an RI of 1.515 and is imaged with an oil immersion objective.  If
this can't be accomplished such as with a live sample then the rule is
to have the fewest refractive changes and to have them to be minimum.
When imaging cultured cells this is done by using an oil immersion
optic.  One then has only 1 refractive mismatch, from 1.515 to 1.33.
Empirical observation has demonstrate that for cultured cells one will
obtain higher resolved images with an oil optic.  However when imaging a
live sample where one has to get as deep into the sample, such as fish
and fly embryos it has been our experience that a water optic will do
better for depth.

Joe Goodhouse
Confocal Core Lab Manager
Dept. of Molecular Biology
Princeton University
Washington Road
Princeton, NJ. 08544-1014
609-258-5432
Visit us at http://www.molbio1.princeton.edu/facility/confocal/


-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]]
On Behalf Of Armstrong, Brian
Sent: Wednesday, December 02, 2009 12:06 PM
To: [hidden email]
Subject: Re: Objectives for live cell imaging

We often image live cells on inverted microscopes using water immersion
lenses. It is not a problem, and in fact you should image live cells in
aqueous with a water immersion lens. You can also use a thicker water
from Zeiss Immersol W (and others) that has an RI similar to W. We use
this for long term live cell imaging at 37degrees.
Live cell imaging is best done through a glass coverslip bottom dish
using water immersion lenses on an inverted scope (in my humble
opinion).
Cheers,  

Brian D Armstrong PhD
Light Microscopy Core Manager
Beckman Research Institute
City of Hope
Dept of Neuroscience
1450 E Duarte Rd
Duarte, CA 91010
626-256-4673 x62872
http://www.cityofhope.org/research/support/Light-Microscopy-Digital-Imag
ing/Pages/default.aspx
-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]]
On Behalf Of Richard E. Edelmann
Sent: Wednesday, December 02, 2009 7:51 AM
To: [hidden email]
Subject: Objectives for live cell imaging


        O.k., obviously live cell imaging would be best done with either
(1)
an upright with a water immersion lens (dipping) or (2) cells
adherent to a cover slip and an oil immersion lens on an inverted
scope.

        So what about live tissue imaging on an inverted scope?  (I.e.
whole
or dissected insect neuro-muscular development).  How do you best
deal with spherical aberration due to samples in a watery medium a
distance from the coverslip?  With say a 40 to 60X magnification.  
Scope is a Zeiss 710.

        Building, some sort of a flexible damn system for using a water
immersion lens on an inverted really does not seem practical.

        Thanks for any help.


Richard E. Edelmann, Ph.D.
Electron Microscopy Facility Director
364 Pearson Hall
Miami University, Oxford, OH 45056
Ph: 513.529.5712        Fax: 513.529.4243
E-mail: [hidden email]
http://www.emf.muohio.edu


---------------------------------------------------------------------
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.

---------------------------------------------------------------------

We occasionally image one 'large' fly related organ: whole Drosphila brains
using a long working distance 40x water objective on our Zeiss 510 confocal
with inverted Axiovert 200. I believe Zeiss can provide a 'drip tray' to fit
around the top of the objective or you can make your own dam [for one-offs I
have simply used clean PTFE washers rested into place on top of the
objective, surface tension helping out, and you can put a bit of tissue
round the side of the objective just in case, or perhaps use a 'raised up'
Zeiss 'live cell' foam tube that are made to fit tight round the objective].
Zeiss can also provide a special 'water' immersion fluid [Immersol W] to
help: it's apparently mostly a derivative of 'perfluorinepolyether' rather
than water as such - the safety sheet talks of 40oC, but ask Zeiss about its
evaporation rates at 37oC. When using Immersol W our user doesn't normally
bother with sophisticated dams and such [he's just careful with it and
probably relies a lot on surface tension and lens tissues].

However as our drosphila tissue is fixed so there's no problem doing a large
[150+] z-stack [no movement], and as there's no time-lapse we don't hang
around with the sample/immersion fluid. We use a 40x water immersion
objective borrowed from another facility at the moment as they cost around
£7k*. Generally such water objectives are kept locked in a cupboard and only
used by experienced users [the owners], so we get less far problems with
water immersion that with oil immersion and culture fluid spillages on our
inverted microscopes. Adventurous types have even built a water feed tube
and dam system to keep the water immersion liquid in place [but I've never
seen that, I've only heard...]. So it may be easier with an upright in some
situations, but, as others here have said, it is quite practical to use an
inverted configuration microscope with water objectives [sometimes helped by
little ingenuity]. Just try it with a water objective for a few hours on
loan via a Zeiss rep. We invert the slide for the fixed brains, but I
imagine a Mattek type Petri dish would be fine [i.e. better] for live work
with an inverted. I assume your insects don't need 37oC incubators - we
always use the water objective at room temperature [i.e. on a mammalian live
cell free day].

A confocal 3D reconstruction of a drosophila brain imaged as described above
can be seen at:
http://www.well.ox.ac.uk/volocity

Regards, Keith

*
<a href="https://www.micro-shop.zeiss.com/us/us_en/objektive.php?cp_sid=&s=t&f=od&p%5">https://www.micro-shop.zeiss.com/us/us_en/objektive.php?cp_sid=&s=t&f=od&p%5
b%5d=421767-9970-000


---------------------------------------------------------------------------
Dr Keith J. Morris,
Molecular Cytogenetics and Microscopy Core,
Laboratory 00/069 and 00/070,
The Wellcome Trust Centre for Human Genetics,
Roosevelt Drive,
Oxford  OX3 7BN,
United Kingdom.

Telephone:  +44 (0)1865 287568
Email:  [hidden email]
Web-pages: http://www.well.ox.ac.uk/molecular-cytogenetics-and-microscopy


-----Original Message-----
From: Confocal Microscopy List [mailto:[hidden email]] On
Behalf Of Richard E. Edelmann
Sent: 02 December 2009 15:51
To: [hidden email]
Subject: Objectives for live cell imaging

        O.k., obviously live cell imaging would be best done with either (1)

an upright with a water immersion lens (dipping) or (2) cells
adherent to a cover slip and an oil immersion lens on an inverted
scope.

        So what about live tissue imaging on an inverted scope?  (I.e. whole

or dissected insect neuro-muscular development).  How do you best
deal with spherical aberration due to samples in a watery medium a
distance from the coverslip?  With say a 40 to 60X magnification.  
Scope is a Zeiss 710.

        Building, some sort of a flexible damn system for using a water
immersion lens on an inverted really does not seem practical.

        Thanks for any help.


Richard E. Edelmann, Ph.D.
Electron Microscopy Facility Director
364 Pearson Hall
Miami University, Oxford, OH 45056
Ph: 513.529.5712        Fax: 513.529.4243
E-mail: [hidden email]
http://www.emf.muohio.edu

Hi Richard,

I agree with many of the items mentioned be previous responders. Here's my take:

Zeiss makes a very nice 25x/0.8 NA multi-immersion lens ("IMM"). It can be dialed for any refractive index from 1.33 to 1.515. I usually leave it at RI 1.33 on our LSM510/UV, but change as needed. This, combined with a 35 mm imaging dish (e.g. mattek.com = glassbottomdishes.com or WPI or Greiner bio-One, or do-it-yourself), RI matched immersion and mounting media, and especially the ability to zoom up (or down to 0.6x) on the LSM710 makes for a very robust imaging platform. Zeiss also has a wide range of 20x, 32x and 40x NA 1.0 and NA 1.2 lenses, and some interesting glycerol lenses (e.g. 63x/1.3NA), if you really need to push the resolution (and have the money).

I am now recommending the coverglass bottom dishes to all my users for both live specimens and standard cell culture immunofluorescence - I've seen too many coverglass-slide preparation leaking all kinds of mounting media and think $2.10 for an imaging dish is an excellent investment (on the researcher's part) to avoid ruining any expensive objective lenses on our core's microscopes.

Best wishes and happy holidays to all,

George
p.s. speaking of Zeiss, while checking out latest objective lenses on their website I noticed this in their news:

Carl Zeiss Expects Recovery
Fiscal Year 2008/09 Ended with a Loss

This is not to single out Zeiss in these economic times - I doubt the other companies in our field had a spectacular 2009.

At 10:50 AM 12/2/2009, you wrote:

        O.k., obviously live cell imaging would be best done with either (1)
an upright with a water immersion lens (dipping) or (2) cells
adherent to a cover slip and an oil immersion lens on an inverted
scope.

        So what about live tissue imaging on an inverted scope?  (I.e. whole
or dissected insect neuro-muscular development).  How do you best
deal with spherical aberration due to samples in a watery medium a
distance from the coverslip?  With say a 40 to 60X magnification. 
Scope is a Zeiss 710.

        Building, some sort of a flexible damn system for using a water
immersion lens on an inverted really does not seem practical.

        Thanks for any help.


Richard E. Edelmann, Ph.D.
Electron Microscopy Facility Director
364 Pearson Hall
Miami University, Oxford, OH 45056
Ph: 513.529.5712        Fax: 513.529.4243
E-mail: [hidden email]
http://www.emf.muohio.edu

George McNamara, Ph.D.
Image Core Manager
Analytical Imaging Core Facility
University of Miami, Miller School of Medicine
Miami, FL 33136
[hidden email]
[hidden email]
305-243-8436 office
http://www.sylvester.org/AICF (Analytical Imaging Core Facility)
http://www.sylvester.org/AICF/pubspectra.zip (the entire 2000+ spectra .xlsx file is in the zip file)
http://home.earthlink.net/~geomcnamara