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23.05.2024 12:10

New insights into the interaction of femtosecond lasers with living tissue

Edda Fischer Kommunikation und Marketing
Max-Planck-Institut für die Physik des Lichts

    Nonlinear light microscopy has revolutionized our ability to observe and understand complex biological processes. However, light can also damage living matter. Yet, the mechanism behind the irreversible perturbation of cellular processes by intense light remains poorly understood. To address this lacuna, the research groups of Hanieh Fattahi and Daniel Wehner at the Max Planck Institute for the Science of Light (MPL) and Max-Planck-Zentrum für Physik und Medizin have joined forces to identify the conditions under which intense pulsed lasers can be used in vivo without damaging the organism.

    The Erlangen-based international team used the vertebrate species zebrafish to delve into the mechanisms of photodamage in deep tissue at a cellular level triggered by femtosecond excitation pulses. The results have been published in Communications Physics.

    Soyeon Jun, the first author of the publication – and doctoral student in the “Femtosecond Fieldoscopy” group at MPL headed by Hanieh Fattahi – explains: ”We demonstrated that damage to the central nervous system (CNS) of zebrafish, when irradiated by femtosecond pulses at 1030 nm, occurs abruptly at the extreme peak intensities required for low-density plasma formation.“ This allows for a noninvasive increase in imaging dwell time and photon flux during irradiation at 1030 nm, as long as the peak intensity is below the low-plasma density threshold. This is crucial for nonlinear label-free microscopy.

    “These findings significantly contribute to advancements in deep tissue imaging techniques and innovative microscopy techniques, like femtosecond fieldoscopy, which is currently being developed in my group. This technique allows for the capture of high spatial resolution, label-free images with attosecond temporal resolution,” says Hanieh Fattahi.

    “Our results not only highlight the value of collaborations of the fields of physics and biology but also pave the way for in vivo applications to achieve light-based precise manipulations of the central nervous system,“ adds Daniel Wehner, head of the research group “Neuroregeneration”.


    Wissenschaftliche Ansprechpartner:

    Dr. Hanieh Fattahi / Research group leader
    “Femtosecond Fieldoscopy” at the Max Planck Institute for the Science of Light, Erlangen.
    https://mpl.mpg.de/research-at-mpl/independent-research-groups/fattahi-research-...
    hanieh.fattahi@mpl.mpg.de

    Dr. Daniel Wehner / Research group leader
    “Neuroregeneration“ at the Max Planck Institute for the Science of Light and Max-Planck-Zentrum für Physik und Medizin, Erlangen.
    https://mpl.mpg.de/research-at-mpl/independent-research-groups/wehner-research-g...
    daniel.wehner@mpl.mpg.de


    Originalpublikation:

    Original publication in Communication Physics:
    Soyeon Jun, Andreas Herbst, Kilian Scheffter, Nora John, Julia Kolb, Daniel Wehner, Hanieh Fattahi.
    Nonlinear dynamics of femtosecond laser interaction with the central nervous system in zebrafish.
    Communication Physics volume 7, Article number: 161 (2024)
    https://www.nature.com/articles/s42005-024-01653-2
    https://doi.org/10.1038/s42005-024-01653-2


    Bilder

    Precisely targeted femtosecond laser pulses were focused on the central nervous system of zebrafish larvae under various irradiation settings.
    Precisely targeted femtosecond laser pulses were focused on the central nervous system of zebrafish ...

    © Hanieh Fattahi research group, MPL

    MPL Research group leaders Hanieh Fattahi and Daniel Wehner with doctoral student Soyeon Jun.
    MPL Research group leaders Hanieh Fattahi and Daniel Wehner with doctoral student Soyeon Jun.

    © Susanne Viezens, MPL


    Merkmale dieser Pressemitteilung:
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    Biologie, Physik / Astronomie
    überregional
    Forschungsergebnisse, Wissenschaftliche Publikationen
    Englisch


     

    Precisely targeted femtosecond laser pulses were focused on the central nervous system of zebrafish larvae under various irradiation settings.


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    MPL Research group leaders Hanieh Fattahi and Daniel Wehner with doctoral student Soyeon Jun.


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