Multiphoton imaging with a nanosecond supercontinuum source - Archive ouverte HAL
Communication Dans Un Congrès Année : 2016

Multiphoton imaging with a nanosecond supercontinuum source

Résumé

Multiphoton microscopy is a well-established technique for biological imaging of several kinds of targets. It is classically based on multiphoton processes allowing two means of contrast simultaneously: two-photon fluorescence (TPF) and second harmonic generation (SHG). Today, the quasi exclusive laser technology used in that aim is femtosecond titanium sapphire (Ti: Sa) laser. We experimentally demonstrate that a nanosecond supercontinuum laser source (STM-250-VIS-IR-custom, Leukos, France; 1 ns, 600-2400 nm, 250 kHz, 1 W) allows to obtain the same kind of image quality in the case of both TPF and SHG, since it is properly filtered. The first set of images concerns the muscle of a mouse. It highlights the simultaneous detection of TPF and SHG. TPF is obtained thanks to the labelling of alpha-actinin with Alexa Fluor (R) 546 by immunochemistry. SHG is created from the non-centrosymmetric organization of myosin. As expected, discs of actin and myosin are superimposed alternatively. The resulting images are compared with those obtained from a standard femtosecond Ti: Sa source. The physical parameters of the supercontinuum are discussed. Finally, all the interest of using an ultra-broadband source is presented with images obtained in vivo on the brain of a mouse where tumor cells labeled with eGFP are grafted. Texas Red (R) conjugating Dextran is injected into the blood vessels network. Thus, two fluorophores having absorption wavelengths separated by 80 nm are imaged simultaneously with a single laser source.
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Dates et versions

hal-01382942 , version 1 (17-10-2016)

Identifiants

Citer

Claire Lefort, Rodney P. O'Connor, Véronique V. Blanquet, Fabienne F. Baraige, Vincent Tombelaine, et al.. Multiphoton imaging with a nanosecond supercontinuum source. Conference on Multiphoton Microscopy in the Biomedical Sciences XVI, Feb 2016, San Francisco, United States. ⟨10.1117/12.2208134⟩. ⟨hal-01382942⟩
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