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Two-photon excitation microscopy (TPEF or 2PEF) is a
fluorescence Fluorescence is the emission of light by a substance that has absorbed light or other electromagnetic radiation. It is a form of luminescence. In most cases, the emitted light has a longer wavelength, and therefore a lower photon energy, tha ...
imaging technique that allows imaging of living tissue up to about one millimeter in thickness, with 0.64 μm lateral and 3.35 μm axial spatial resolution. Unlike traditional
fluorescence microscopy A fluorescence microscope is an optical microscope that uses fluorescence instead of, or in addition to, scattering, reflection, and attenuation or absorption, to study the properties of organic or inorganic substances. "Fluorescence microsc ...
, in which the excitation wavelength is shorter than the emission wavelength, two-photon excitation requires simultaneous excitation by two photons with longer wavelength than the emitted light. Two-photon excitation microscopy typically uses
near-infrared Infrared (IR), sometimes called infrared light, is electromagnetic radiation (EMR) with wavelengths longer than those of Light, visible light. It is therefore invisible to the human eye. IR is generally understood to encompass wavelengths from ...
(NIR) excitation light which can also excite
fluorescent dyes A fluorophore (or fluorochrome, similarly to a chromophore) is a fluorescent chemical compound that can re-emit light upon light excitation. Fluorophores typically contain several combined aromatic groups, or planar or cyclic molecules with se ...
. However, for each excitation, two photons of NIR light are absorbed. Using infrared light minimizes scattering in the tissue. Due to the multiphoton absorption, the background signal is strongly suppressed. Both effects lead to an increased
penetration depth Penetration depth is a measure of how deep light or any electromagnetic radiation can penetrate into a material. It is defined as the depth at which the intensity of the radiation inside the material falls to 1/e (about 37%) of its original valu ...
for this technique. Two-photon excitation can be a superior alternative to
confocal microscopy Confocal microscopy, most frequently confocal laser scanning microscopy (CLSM) or laser confocal scanning microscopy (LCSM), is an optical imaging technique for increasing optical resolution and contrast of a micrograph by means of using a sp ...
due to its deeper tissue penetration, efficient light detection, and reduced
photobleaching In optics, photobleaching (sometimes termed fading) is the photochemical alteration of a dye or a fluorophore molecule such that it is permanently unable to fluoresce. This is caused by cleaving of covalent bonds or non-specific reactions between t ...
. upright=1.5, Two-photon fluorescence image (green) of a cross section of rhizome colored with lily of the valley. The excitement is at 840nm, and the red and blue colors represent other channels of multiphoton techniques which have been superimposed.


Concept

Two-photon excitation employs
two-photon absorption Two-photon absorption (TPA or 2PA) or two-photon excitation or non-linear absorption is the simultaneous absorption of two photons of identical or different frequencies in order to excite a molecule from one state (usually the ground state) to a hi ...
, a concept first described by Maria Goeppert Mayer (1906–1972) in her doctoral dissertation in 1931, and first observed in 1961 in a CaF2:Eu2+ crystal using
laser A laser is a device that emits light through a process of optical amplification based on the stimulated emission of electromagnetic radiation. The word "laser" is an acronym for "light amplification by stimulated emission of radiation". The fir ...
excitation by Wolfgang Kaiser.
Isaac Abella Isaac David Abella (June 20, 1934 – October 23, 2016) was a Canadian physicist who was a professor at the University of Chicago.caesium Caesium (IUPAC spelling) (or cesium in American English) is a chemical element with the symbol Cs and atomic number 55. It is a soft, silvery-golden alkali metal with a melting point of , which makes it one of only five elemental metals that a ...
vapor that two-photon excitation of single atoms is possible. Two-photon excitation fluorescence microscopy has similarities to other confocal laser microscopy techniques such as
laser scanning confocal microscopy Confocal microscopy, most frequently confocal laser scanning microscopy (CLSM) or laser confocal scanning microscopy (LCSM), is an optical imaging technique for increasing optical resolution and contrast of a micrograph by means of using a sp ...
and
Raman microscopy The Raman microscope is a laser-based microscopic device used to perform Raman spectroscopy.''Microscopical techniques in the use of the molecular optics laser examiner Raman microprobe'', by M. E. Andersen, R. Z. Muggli, Analytical Chemistry, 198 ...
. These techniques use focused laser beams scanned in a raster pattern to generate images, and both have an
optical sectioning Optical sectioning is the process by which a suitably designed microscope can produce clear images of focal planes deep within a thick sample. This is used to reduce the need for thin sectioning using instruments such as the microtome. Many differ ...
effect. Unlike confocal microscopes, multiphoton microscopes do not contain pinhole apertures that give confocal microscopes their optical sectioning quality. The optical sectioning produced by multiphoton microscopes is a result of the point spread function of the excitation: the multiphoton point spread function is typically dumbbell-shaped (longer in the x-y plane), compared to the upright rugby-ball shaped point spread function of confocal microscopes. The concept of two-photon excitation is based on the idea that two photons, of comparably lower photon energy than needed for one photon excitation, can also excite a
fluorophore A fluorophore (or fluorochrome, similarly to a chromophore) is a fluorescent chemical compound that can re-emit light upon light excitation. Fluorophores typically contain several combined aromatic groups, or planar or cyclic molecules with se ...
in one quantum event. Each photon carries approximately half the energy necessary to excite the molecule. Excitation results in the subsequent emission of a fluorescence photon with the same
quantum yield The quantum yield (Φ) of a radiation-induced process is the number of times a specific event occurs per photon absorbed by the system. Applications Fluorescence spectroscopy The fluorescence quantum yield is defined as the ratio of the numb ...
that would result from conventional single-photon absorption. The emitted photon is typically at a higher energy (shorter wavelength) than either of the two exciting photons. The probability of the near-simultaneous absorption of two photons is extremely low. Therefore, a high peak
flux Flux describes any effect that appears to pass or travel (whether it actually moves or not) through a surface or substance. Flux is a concept in applied mathematics and vector calculus which has many applications to physics. For transport ph ...
of excitation photons is typically required, usually generated by femtosecond
pulsed laser Pulsed operation of lasers refers to any laser not classified as continuous wave, so that the optical power appears in pulses of some duration at some repetition rate. Silfvast, William T. (1996). ''Laser Fundamentals'', Cambridge University Press. ...
. The purpose of employing the two-photon effect is that the axial spread of the point spread function is substantially lower than for single-photon excitation. As a result, the extent along the z dimension is improved, allowing for thin optical sections to be cut. In addition, in many interesting cases the shape of the spot and its size can be designed to realize specific desired goals. The longer wavelength, lower energy (typically infrared) excitation lasers of multiphoton microscopes are well-suited to use in imaging live cells as they cause less damage than the short-wavelength lasers typically used for single-photon excitation, so cells may be observed for longer periods with fewer toxic effects. The most commonly used fluorophores have excitation spectra in the 400–500 nm range, whereas the laser used to excite the two-photon fluorescence lies in the ~700–1000 nm (infrared) range produced by
Ti-sapphire laser Ti:sapphire lasers (also known as Ti:Al2O3 lasers, titanium-sapphire lasers, or Ti:sapphs) are tunable lasers which emit red and near-infrared light in the range from 650 to 1100 nanometers. These lasers are mainly used in scientific research beca ...
s. If the fluorophore absorbs two infrared photons simultaneously, it will absorb enough energy to be raised into the excited state. The fluorophore will then emit a single photon with a wavelength that depends on the type of fluorophore used (typically in the visible spectrum). Because two photons are absorbed during the excitation of the fluorophore, the probability for fluorescent emission from the fluorophores increases quadratically with the excitation intensity. Therefore, much more two-photon fluorescence is generated where the laser beam is tightly focused than where it is more diffuse. Effectively, excitation is restricted to the tiny focal volume (~1 femtoliter), resulting in a high degree of rejection of out-of-focus objects. This ''localization of excitation'' is the key advantage compared to single-photon excitation microscopes, which need to employ elements such as pinholes to reject out-of-focus fluorescence. The fluorescence from the sample is then collected by a high-sensitivity detector, such as a
photomultiplier A photomultiplier is a device that converts incident photons into an electrical signal. Kinds of photomultiplier include: * Photomultiplier tube, a vacuum tube converting incident photons into an electric signal. Photomultiplier tubes (PMTs for sho ...
tube. This observed light intensity becomes one
pixel In digital imaging, a pixel (abbreviated px), pel, or picture element is the smallest addressable element in a raster image, or the smallest point in an all points addressable display device. In most digital display devices, pixels are the smal ...
in the eventual image; the focal point is scanned throughout a desired region of the sample to form all the pixels of the image.


Development

Two-photon microscopy was pioneered and
patent A patent is a type of intellectual property that gives its owner the legal right to exclude others from making, using, or selling an invention for a limited period of time in exchange for publishing an enabling disclosure of the invention."A p ...
ed by
Winfried Denk Winfried Denk (born November 12, 1957 in Munich) is a German physicist. He built the first two-photon microscope while he was a graduate student (and briefly a postdoc) in Watt W. Webb's lab at Cornell University, in 1989. Early life and educa ...
and James Strickler in the lab of
Watt W. Webb Watt Wetmore Webb (August 27, 1927 – October 29, 2020) was an American biophysicist, known for his co-invention (with Winfried Denk and Jim Strickler) of multiphoton microscopy in 1990. Early life and education Watt Wetmore Webb was born on ...
at
Cornell University Cornell University is a private statutory land-grant research university based in Ithaca, New York. It is a member of the Ivy League. Founded in 1865 by Ezra Cornell and Andrew Dickson White, Cornell was founded with the intention to teach an ...
in 1990. They combined the idea of
two-photon absorption Two-photon absorption (TPA or 2PA) or two-photon excitation or non-linear absorption is the simultaneous absorption of two photons of identical or different frequencies in order to excite a molecule from one state (usually the ground state) to a hi ...
with the use of a laser scanner. In two-photon excitation microscopy an infrared laser beam is focused through an objective lens. The
Ti-sapphire laser Ti:sapphire lasers (also known as Ti:Al2O3 lasers, titanium-sapphire lasers, or Ti:sapphs) are tunable lasers which emit red and near-infrared light in the range from 650 to 1100 nanometers. These lasers are mainly used in scientific research beca ...
normally used has a pulse width of approximately 100 femtoseconds (fs) and a repetition rate of about 80 MHz, allowing the high photon density and flux required for two photon absorption, and is tunable across a wide range of wavelengths. Mode-locked Yb-doped
fiber laser A fiber laser (or fibre laser in British English) is a laser in which the active gain medium is an optical fiber doped with rare-earth elements such as erbium, ytterbium, neodymium, dysprosium, praseodymium, thulium and holmium. They are related t ...
s with 325 fs pulses have also been employed for collagen imaging, demonstrating a penetration depth of beyond 320 μm in collagen, which is considerably superior to depths of 250 to 300 μm achievable when coupled to a conventional Ti-sapphire excitation laser. The use of infrared light to excite fluorophores in light-scattering tissue has added benefits. Longer wavelengths are scattered to a lesser degree than shorter ones, which is a benefit to high-resolution imaging. In addition, these lower-energy photons are less likely to cause damage outside the focal volume. Compared to a confocal microscope, photon detection is much more effective since even scattered photons contribute to the usable signal. These benefits for imaging in scattering tissues were only recognized several years after the invention of two-photon excitation microscopy. There are several caveats to using two-photon microscopy: The pulsed lasers needed for two-photon excitation are much more expensive than the continuous wave (CW) lasers used in confocal microscopy. The two-photon absorption spectrum of a molecule may vary significantly from its one-photon counterpart. Higher order photodamage becomes a problem and bleaching scales with the square of the laser power, whereas it is linear for single-photon (confocal). For very thin objects such as isolated cells, single-photon (confocal) microscopes can produce images with higher
optical resolution Optical resolution describes the ability of an imaging system to resolve detail, in the object that is being imaged. An imaging system may have many individual components, including one or more lenses, and/or recording and display components. ...
due to their shorter excitation wavelengths. In scattering tissue, on the other hand, the superior optical sectioning and light detection capabilities of the two-photon microscope result in better performance.


Applications


Main

Two-photon microscopy has been involved with numerous fields including: physiology, neurobiology, embryology and tissue engineering. Even thin, nearly transparent tissues (such as skin cells) have been visualized with clear detail due to this technique. Two-photon microscopy's high speed imaging capabilities may also be utilized in noninvasive optical biopsy. In cell biology, two-photon microscopy has been aptly used for producing localized chemical reactions. Using two-photon fluorescence and
second-harmonic generation Second-harmonic generation (SHG, also called frequency doubling) is a nonlinear optical process in which two photons with the same frequency interact with a nonlinear material, are "combined", and generate a new photon with twice the energy of ...
–based microscopy, it was shown that organic
porphyrin Porphyrins ( ) are a group of heterocyclic macrocycle organic compounds, composed of four modified pyrrole subunits interconnected at their α carbon atoms via methine bridges (=CH−). The parent of porphyrin is porphine, a rare chemical com ...
-type molecules can have different
transition dipole moment The transition dipole moment or transition moment, usually denoted \mathbf_ for a transition between an initial state, m, and a final state, n, is the electric dipole moment associated with the transition between the two states. In general the tra ...
s for two-photon fluorescence and second harmonic generation, which are otherwise thought to occur from the same transition dipole moment. Non-degenerative two-photon excitation, or using 2 photons of unequal wavelengths, was shown to increase the fluorescence of all tested small molecules and fluorescent proteins.


Cancer research

2PEF was also proven to be very valuable for characterizing skin cancer. It had also been shown to reveal tumor cell arrest, tumor cell-platelet interaction, tumor cell-leukocyte interaction and metastatic colonization processes.


Embryonic research

2PEF has shown to be advantageous over other techniques, such as
confocal microscopy Confocal microscopy, most frequently confocal laser scanning microscopy (CLSM) or laser confocal scanning microscopy (LCSM), is an optical imaging technique for increasing optical resolution and contrast of a micrograph by means of using a sp ...
when it comes to long-term live-cell imaging of mammalian embryos.


Kidney research

2PEF has also been used in visualization of difficult-to-access cell types, especially in regards to kidney cells. It has been used in better understanding fluid dynamics and filtration.


Neurosciences

2PEF and 3PEF are used to characterize intact neural tissues. In particular, it is advantageous in
calcium imaging Calcium imaging is a microscopy technique to optically measure the calcium (Ca2+) status of an isolated cell, tissue or medium. Calcium imaging takes advantage of calcium indicators, fluorescent molecules that respond to the binding of Ca2+ ions b ...
in a neuron and localized glutamate uncaging


Brain in-vivo imaging

Multiphoton fluorescence (2PEF and 3PEF) is a useful means of imaging the brain in-vivo. This is because these imaging techniques excel at imaging deep in scattering tissue. Currently, two-photon microscopy is widely used to image the live firing of neurons in model organisms including fruit flies (''
Drosophila melanogaster ''Drosophila melanogaster'' is a species of fly (the taxonomic order Diptera) in the family Drosophilidae. The species is often referred to as the fruit fly or lesser fruit fly, or less commonly the "vinegar fly" or "pomace fly". Starting with Ch ...
)'', mice (''
Mus musculus Mus or MUS may refer to: Abbreviations * MUS, the NATO country code for Mauritius * MUS, the IATA airport code for Minami Torishima Airport * MUS, abbreviation for the Centre for Modern Urban Studies on Campus The Hague, Leiden University, Neth ...
)'', and
zebrafish The zebrafish (''Danio rerio'') is a freshwater fish belonging to the minnow family ( Cyprinidae) of the order Cypriniformes. Native to South Asia, it is a popular aquarium fish, frequently sold under the trade name zebra danio (and thus often ...
.


Higher-order excitation

Simultaneous absorption of three or more photons is also possible, allowing for higher order multiphoton excitation microscopy. So-called "three photon excitation fluorecence microscopy" (3PEF) is the most used technique after 2PEF, to which it is complementary.


Dyes and fluorescent proteins for two-photon excitation microscopy

In general, all commonly used
fluorescent protein Fluorescent proteins include: * Green fluorescent protein (GFP) * Yellow fluorescent protein Yellow fluorescent protein (YFP) is a genetic mutant of green fluorescent protein (GFP) originally derived from the jellyfish '' Aequorea victoria''. Its ...
s (CFP, GFP, YFP, RFP) and dyes can be excited in two-photon mode. Two-photon excitation spectra are often considerably broader, making it more difficult to excite fluorophores selectively by switching excitation wavelengths. Several green, red and NIR emitting dyes (probes and reactive labels) with extremely high 2-photon absorption cross-sections have been reported. Due to the donor-acceptor-donor type structure, squaraine dyes such as ''Seta-670'', ''Seta-700'' and ''Seta-660'' exhibit very high 2-photon absorption (2PA) efficiencies in comparison to other dyes, ''SeTau-647'' and ''SeTau-665'', a new type of squaraine-
rotaxane In chemistry, a rotaxane () is a mechanically interlocked molecular architecture consisting of a dumbbell-shaped molecule which is threaded through a macrocycle (see graphical representation). The two components of a rotaxane are kinetically t ...
, exhibit extremely high two-photon action cross-sections of up to 10,000 GM in the near IR region, unsurpassed by any other class of organic dyes.


See also

*
3D optical data storage 3D optical data storage is any form of optical data storage in which information can be recorded or read with three-dimensional resolution (as opposed to the two-dimensional resolution afforded, for example, by CD). This innovation has the pote ...
*
Nonlinear optics Nonlinear optics (NLO) is the branch of optics that describes the behaviour of light in ''nonlinear media'', that is, media in which the polarization density P responds non-linearly to the electric field E of the light. The non-linearity is typica ...
*
Wide-field multiphoton microscopy Wide-field multiphoton microscopy refers to an optical non-linear imaging technique tailored for ultrafast imaging in which a large area of the object is illuminated and imaged without the need for scanning. High intensities are required to induce ...
*
Two-photon absorption Two-photon absorption (TPA or 2PA) or two-photon excitation or non-linear absorption is the simultaneous absorption of two photons of identical or different frequencies in order to excite a molecule from one state (usually the ground state) to a hi ...
* Three-photon microscopy *
Second-harmonic imaging microscopy Second-harmonic imaging microscopy (SHIM) is based on a nonlinear optical effect known as second-harmonic generation Second-harmonic generation (SHG, also called frequency doubling) is a nonlinear optical process in which two photons with t ...
*
Two-photon photoelectron spectroscopy Time-resolved two-photon photoelectron (2PPE) spectroscopy is a time-resolved spectroscopy technique which is used to study electronic structure and electronic excitations at surfaces. The technique utilizes femtosecond to picosecond laser pulses in ...


Sources

* * * *


References


External links


Two-photon suitable dyesAcquisition of Multiple Real-Time Images for Laser Scanning Microscopy
(Sanderson microscopy article)
Two-photon Fluorescence Light Microscopy, ENCYCLOPEDIA OF LIFE SCIENCES
*

University of Wisconsin. *

'' Nikon MicroscopyU . * * {{Lasers Microscopy Cell imaging Fluorescence techniques Laboratory equipment Optical microscopy