Chronic inflammation in various organs, such as the brain, implies that different subpopulations of immune cells interact with the cells of the target organ. To monitor this cellular communication both morphologically and functionally, the ability to visualize more than two colors in deep tissue is indispensable. Here, we demonstrate the pronounced power of optical parametric oscillator (OPO)-based two-photon laser scanning microscopy for dynamic intravital imaging in hardly accessible organs of the central nervous and of the immune system, with particular relevance for long-term investigations of pathological mechanisms (e.g., chronic neuroinflammation) necessitating the use of fluorescent proteins. Expanding the wavelength excitation fart...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
International audienceThree-photon excitation has recently been demonstrated as an effective method ...
Since its inception more than 15 years ago, two-photon laser scanning microscopy (2PLSM) has found w...
International audienceSimultaneous imaging of different cell types and structures in the mouse centr...
Imaging a fluorophore in a living tissue presents several unique problems. The fluorescence from the...
<div><p>Cellular communication constitutes a fundamental mechanism of life, for instance by permitti...
Cellular communication constitutes a fundamental mechanism of life, for instance by permitting trans...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Fluorescence microscopy has represented a crucial technique to explore the cellular and molecular me...
Two-photon microscopy has enabled high-resolution imaging of single cells in the brain of anaestheti...
Two-photon excitation (2PE) microscopy [1] has proven to be an excellent technique for in vivo fluor...
Fluorescent lifetime imaging microscopy (FLIM) has proven to be a valuable tool in beating the Rayle...
Two-photon microscopy is often used to image in vivo neural structural due to the excellent contrast...
Two-photon intravital imaging is a powerful method by which researchers are able to directly observe...
Two-photon-excited fluorescence laser-scanning microscopy (2PLSM) has provided a wealth of informati...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
International audienceThree-photon excitation has recently been demonstrated as an effective method ...
Since its inception more than 15 years ago, two-photon laser scanning microscopy (2PLSM) has found w...
International audienceSimultaneous imaging of different cell types and structures in the mouse centr...
Imaging a fluorophore in a living tissue presents several unique problems. The fluorescence from the...
<div><p>Cellular communication constitutes a fundamental mechanism of life, for instance by permitti...
Cellular communication constitutes a fundamental mechanism of life, for instance by permitting trans...
The ability to visualize deep brain structures in vivo with high spatial resolution is of rising int...
Fluorescence microscopy has represented a crucial technique to explore the cellular and molecular me...
Two-photon microscopy has enabled high-resolution imaging of single cells in the brain of anaestheti...
Two-photon excitation (2PE) microscopy [1] has proven to be an excellent technique for in vivo fluor...
Fluorescent lifetime imaging microscopy (FLIM) has proven to be a valuable tool in beating the Rayle...
Two-photon microscopy is often used to image in vivo neural structural due to the excellent contrast...
Two-photon intravital imaging is a powerful method by which researchers are able to directly observe...
Two-photon-excited fluorescence laser-scanning microscopy (2PLSM) has provided a wealth of informati...
Two-photon excitation microscopy has the potential as an effective, non-invasive, imaging tool for i...
International audienceThree-photon excitation has recently been demonstrated as an effective method ...
Since its inception more than 15 years ago, two-photon laser scanning microscopy (2PLSM) has found w...